/*
 * Copyright (c) 2012, Freescale Semiconductor, Inc.
 * All rights reserved.
 *
 * THIS SOFTWARE IS PROVIDED BY FREESCALE "AS IS" AND ANY EXPRESS OR IMPLIED
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
 * SHALL FREESCALE BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
 * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
 * OF SUCH DAMAGE.
 */
/*
 * WARNING! DO NOT EDIT THIS FILE DIRECTLY!
 *
 * This file was generated automatically and any changes may be lost.
 */
#ifndef __HW_FLEXCAN_REGISTERS_H__
#define __HW_FLEXCAN_REGISTERS_H__

#include "regs.h"

/*
 * i.MX6DQ FLEXCAN
 *
 * FLEXCAN
 *
 * Registers defined in this header file:
 * - HW_FLEXCAN_MCR - Module Configuration Register
 * - HW_FLEXCAN_CTRL - Control Register
 * - HW_FLEXCAN_TIMER - Free Running Timer
 * - HW_FLEXCAN_RXGMASK - Rx Global Mask
 * - HW_FLEXCAN_RX14MASK - Rx 14 Mask
 * - HW_FLEXCAN_RX15MASK - Rx 15 Mask
 * - HW_FLEXCAN_ECR - Error Counter Register
 * - HW_FLEXCAN_ESR - Error and Status Register
 * - HW_FLEXCAN_IMASK2 - Interrupt Masks 2 Register
 * - HW_FLEXCAN_IMASK1 - Interrupt Masks 1 Register
 * - HW_FLEXCAN_IFLAG2 - Interrupt Flags 2 Register
 * - HW_FLEXCAN_IFLAG1 - Interrupt Flags 1 Register
 * - HW_FLEXCAN_GFWR - Glitch Filter Width Register
 * - HW_FLEXCAN_RX0IMR - Rx Individual Mask Registers
 * - HW_FLEXCAN_RX63IMR - Rx Individual Mask Registers
 *
 * - hw_flexcan_t - Struct containing all module registers.
 */

//! @name Module base addresses
//@{
#ifndef REGS_FLEXCAN_BASE
#define HW_FLEXCAN_INSTANCE_COUNT (2) //!< Number of instances of the FLEXCAN module.
#define HW_FLEXCAN1 (1) //!< Instance number for FLEXCAN1.
#define HW_FLEXCAN2 (2) //!< Instance number for FLEXCAN2.
#define REGS_FLEXCAN1_BASE (0x02090000) //!< Base address for FLEXCAN instance number 1.
#define REGS_FLEXCAN2_BASE (0x02094000) //!< Base address for FLEXCAN instance number 2.

//! @brief Get the base address of FLEXCAN by instance number.
//! @param x FLEXCAN instance number, from 1 through 2.
#define REGS_FLEXCAN_BASE(x) ( (x) == HW_FLEXCAN1 ? REGS_FLEXCAN1_BASE : (x) == HW_FLEXCAN2 ? REGS_FLEXCAN2_BASE : 0x00d00000)

//! @brief Get the instance number given a base address.
//! @param b Base address for an instance of FLEXCAN.
#define REGS_FLEXCAN_INSTANCE(b) ( (b) == REGS_FLEXCAN1_BASE ? HW_FLEXCAN1 : (b) == REGS_FLEXCAN2_BASE ? HW_FLEXCAN2 : 0)
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_MCR - Module Configuration Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_MCR - Module Configuration Register (RW)
 *
 * Reset value: 0x5980000f
 *
 * This register defines global system configurations, such as the block operation mode (low power,
 * for example) and maximum message buffer configuration. Most of the fields in this register can be
 * accessed at any time, except the MAXMB field, which should only be changed while the block is in
 * Freeze Mode.
 */
typedef union _hw_flexcan_mcr
{
    reg32_t U;
    struct _hw_flexcan_mcr_bitfields
    {
        unsigned MAXMB : 6; //!< [5:0] This 6-bit field defines the maximum number of message buffers that will take part in the matching and arbitration processes.
        unsigned RESERVED0 : 2; //!< [7:6] Reserved
        unsigned IDAM : 2; //!< [9:8] This 2-bit field identifies the format of the elements of the Rx FIFO filter table, as shown below.
        unsigned RESERVED1 : 2; //!< [11:10] Reserved
        unsigned AEN : 1; //!< [12] This bit is supplied for backwards compatibility reasons.
        unsigned LPRIO_EN : 1; //!< [13] This bit is provided for backwards compatibility reasons.
        unsigned RESERVED2 : 2; //!< [15:14] Reserved
        unsigned BCC : 1; //!< [16] This bit is provided to support Backwards Compatibility with previous FLEXCAN versions.
        unsigned SRX_DIS : 1; //!< [17] This bit defines whether FLEXCAN is allowed to receive frames transmitted by itself.
        unsigned DOZE : 1; //!< [18] This bit defines whether FLEXCAN is allowed to enter low power mode when Doze Mode is requested at ARM platform level.
        unsigned WAK_SRC : 1; //!< [19] This bit defines whether the integrated low-pass filter is applied to protect the Rx CAN input.
        unsigned LPM_ACK : 1; //!< [20] This read-only bit indicates that FLEXCAN is either in Disable Mode and Stop Mode.
        unsigned WRN_EN : 1; //!< [21] When asserted, this bit enables the generation of the TWRN_INT and RWRN_INT flags in the Error and Status Register.
        unsigned SLF_WAK : 1; //!< [22] This bit enables the Self Wake Up feature when FLEXCAN is in Stop Mode.
        unsigned SUPV : 1; //!< [23] This bit configures some of the FLEXCAN registers to be either in Supervisor or Unrestricted memory space.
        unsigned FRZ_ACK : 1; //!< [24] This read-only bit indicates that FLEXCAN is in Freeze Mode and its prescaler is stopped.
        unsigned SOFT_RST : 1; //!< [25] When this bit is asserted, FLEXCAN resets its internal state machines and some of the memory mapped registers.
        unsigned WAK_MSK : 1; //!< [26] This bit enables the Wake Up Interrupt generation.
        unsigned NOT_RDY : 1; //!< [27] This read-only bit indicates that FLEXCAN is either in Disable Mode, Stop Mode or Freeze Mode.
        unsigned HALT : 1; //!< [28] Assertion of this bit puts the FLEXCAN block into Freeze Mode.
        unsigned FEN : 1; //!< [29] This bit controls whether the FIFO feature is enabled or not.
        unsigned FRZ : 1; //!< [30] The FRZ bit specifies the FLEXCAN behavior when the HALT bit in the MCR Register is set or when Debug Mode is requested at ARM platform level.
        unsigned MDIS : 1; //!< [31] This bit controls whether FLEXCAN is enabled or not.
    } B;
} hw_flexcan_mcr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_MCR register
 */
//@{
#define HW_FLEXCAN_MCR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x0)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_MCR(x)           (*(volatile hw_flexcan_mcr_t *) HW_FLEXCAN_MCR_ADDR(x))
#define HW_FLEXCAN_MCR_RD(x)        (HW_FLEXCAN_MCR(x).U)
#define HW_FLEXCAN_MCR_WR(x, v)     (HW_FLEXCAN_MCR(x).U = (v))
#define HW_FLEXCAN_MCR_SET(x, v)    (HW_FLEXCAN_MCR_WR(x, HW_FLEXCAN_MCR_RD(x) |  (v)))
#define HW_FLEXCAN_MCR_CLR(x, v)    (HW_FLEXCAN_MCR_WR(x, HW_FLEXCAN_MCR_RD(x) & ~(v)))
#define HW_FLEXCAN_MCR_TOG(x, v)    (HW_FLEXCAN_MCR_WR(x, HW_FLEXCAN_MCR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_MCR bitfields
 */

/*! @name Register FLEXCAN_MCR, field MAXMB[5:0] (RW)
 *
 * This 6-bit field defines the maximum number of message buffers that will take part in the
 * matching and arbitration processes. The reset value (0x0F) is equivalent to 16 Mbyte
 * configuration. This field should be changed only while the block is in Freeze Mode. Maximum
 * message buffers in use = MAXMB + 1. MAXMB has to be programmed with a value smaller or equal to
 * the number of available Message Buffers, otherwise FLEXCAN will not transmit or receive frames.
 */
//@{
#define BP_FLEXCAN_MCR_MAXMB      (0)      //!< Bit position for FLEXCAN_MCR_MAXMB.
#define BM_FLEXCAN_MCR_MAXMB      (0x0000003f)  //!< Bit mask for FLEXCAN_MCR_MAXMB.

//! @brief Get value of FLEXCAN_MCR_MAXMB from a register value.
#define BG_FLEXCAN_MCR_MAXMB(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_MAXMB) >> BP_FLEXCAN_MCR_MAXMB)

//! @brief Format value for bitfield FLEXCAN_MCR_MAXMB.
#define BF_FLEXCAN_MCR_MAXMB(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_MAXMB) & BM_FLEXCAN_MCR_MAXMB)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MAXMB field to a new value.
#define BW_FLEXCAN_MCR_MAXMB(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_MAXMB) | BF_FLEXCAN_MCR_MAXMB(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field IDAM[9:8] (RW)
 *
 * This 2-bit field identifies the format of the elements of the Rx FIFO filter table, as shown
 * below. Note that all elements of the table are configured at the same time by this field (they
 * are all the same format). See . 00 Format A One full ID (standard or extended) per filter
 * element. 01 Format B Two full standard IDs or two partial 14-bit extended IDs per filter element
 * 10 Format C Four partial 8-bit IDs (standard or extended) per filter element. 11 Format D All
 * frames rejected.
 */
//@{
#define BP_FLEXCAN_MCR_IDAM      (8)      //!< Bit position for FLEXCAN_MCR_IDAM.
#define BM_FLEXCAN_MCR_IDAM      (0x00000300)  //!< Bit mask for FLEXCAN_MCR_IDAM.

//! @brief Get value of FLEXCAN_MCR_IDAM from a register value.
#define BG_FLEXCAN_MCR_IDAM(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_IDAM) >> BP_FLEXCAN_MCR_IDAM)

//! @brief Format value for bitfield FLEXCAN_MCR_IDAM.
#define BF_FLEXCAN_MCR_IDAM(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_IDAM) & BM_FLEXCAN_MCR_IDAM)

#ifndef __LANGUAGE_ASM__
//! @brief Set the IDAM field to a new value.
#define BW_FLEXCAN_MCR_IDAM(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_IDAM) | BF_FLEXCAN_MCR_IDAM(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field AEN[12] (RW)
 *
 * This bit is supplied for backwards compatibility reasons. When asserted, it enables the Tx abort
 * feature. This feature guarantees a safe procedure for aborting a pending transmission, so that no
 * frame is sent in the CAN bus without notification.
 *
 * Values:
 * - 0 - Abort disabled
 * - 1 - Abort enabled
 */
//@{
#define BP_FLEXCAN_MCR_AEN      (12)      //!< Bit position for FLEXCAN_MCR_AEN.
#define BM_FLEXCAN_MCR_AEN      (0x00001000)  //!< Bit mask for FLEXCAN_MCR_AEN.

//! @brief Get value of FLEXCAN_MCR_AEN from a register value.
#define BG_FLEXCAN_MCR_AEN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_AEN) >> BP_FLEXCAN_MCR_AEN)

//! @brief Format value for bitfield FLEXCAN_MCR_AEN.
#define BF_FLEXCAN_MCR_AEN(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_AEN) & BM_FLEXCAN_MCR_AEN)

#ifndef __LANGUAGE_ASM__
//! @brief Set the AEN field to a new value.
#define BW_FLEXCAN_MCR_AEN(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_AEN) | BF_FLEXCAN_MCR_AEN(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field LPRIO_EN[13] (RW)
 *
 * This bit is provided for backwards compatibility reasons. It controls whether the local priority
 * feature is enabled or not. It is used to extend the ID used during the arbitration process. With
 * this extended ID concept, the arbitration process is done based on the full 32-bit word, but the
 * actual transmitted ID still has 11-bit for standard frames and 29-bit for extended frames.
 *
 * Values:
 * - 0 - Local Priority disabled
 * - 1 - Local Priority enabled
 */
//@{
#define BP_FLEXCAN_MCR_LPRIO_EN      (13)      //!< Bit position for FLEXCAN_MCR_LPRIO_EN.
#define BM_FLEXCAN_MCR_LPRIO_EN      (0x00002000)  //!< Bit mask for FLEXCAN_MCR_LPRIO_EN.

//! @brief Get value of FLEXCAN_MCR_LPRIO_EN from a register value.
#define BG_FLEXCAN_MCR_LPRIO_EN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_LPRIO_EN) >> BP_FLEXCAN_MCR_LPRIO_EN)

//! @brief Format value for bitfield FLEXCAN_MCR_LPRIO_EN.
#define BF_FLEXCAN_MCR_LPRIO_EN(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_LPRIO_EN) & BM_FLEXCAN_MCR_LPRIO_EN)

#ifndef __LANGUAGE_ASM__
//! @brief Set the LPRIO_EN field to a new value.
#define BW_FLEXCAN_MCR_LPRIO_EN(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_LPRIO_EN) | BF_FLEXCAN_MCR_LPRIO_EN(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field BCC[16] (RW)
 *
 * This bit is provided to support Backwards Compatibility with previous FLEXCAN versions. When this
 * bit is negated, the following configuration is applied: For ARM platforms supporting individual
 * Rx ID masking, this feature is disabled. Instead of individual ID masking per message buffer,
 * FLEXCAN uses its previous masking scheme with RXGMASK, RX14MASK and RX15MASK. The reception queue
 * feature is disabled. Upon receiving a message, if the first message buffer with a matching ID
 * that is found is still occupied by a previous unread message, FLEXCAN will not look for another
 * matching message buffer. It will override this message buffer with the new message and set the
 * CODE field to 0110 (overrun). Upon reset this bit is negated, allowing legacy software to work
 * without modification.
 *
 * Values:
 * - 0 - Individual Rx masking and queue feature are disabled.
 * - 1 - Individual Rx masking and queue feature are enabled.
 */
//@{
#define BP_FLEXCAN_MCR_BCC      (16)      //!< Bit position for FLEXCAN_MCR_BCC.
#define BM_FLEXCAN_MCR_BCC      (0x00010000)  //!< Bit mask for FLEXCAN_MCR_BCC.

//! @brief Get value of FLEXCAN_MCR_BCC from a register value.
#define BG_FLEXCAN_MCR_BCC(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_BCC) >> BP_FLEXCAN_MCR_BCC)

//! @brief Format value for bitfield FLEXCAN_MCR_BCC.
#define BF_FLEXCAN_MCR_BCC(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_BCC) & BM_FLEXCAN_MCR_BCC)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BCC field to a new value.
#define BW_FLEXCAN_MCR_BCC(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_BCC) | BF_FLEXCAN_MCR_BCC(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field SRX_DIS[17] (RW)
 *
 * This bit defines whether FLEXCAN is allowed to receive frames transmitted by itself. If this bit
 * is asserted, frames transmitted by the block will not be stored in any message buffers,
 * regardless if the message buffers is programmed with an ID that matches the transmitted frame,
 * and no interrupt flag or interrupt signal will be generated due to the frame reception.
 *
 * Values:
 * - 0 - Self reception enabled
 * - 1 - Self reception disabled
 */
//@{
#define BP_FLEXCAN_MCR_SRX_DIS      (17)      //!< Bit position for FLEXCAN_MCR_SRX_DIS.
#define BM_FLEXCAN_MCR_SRX_DIS      (0x00020000)  //!< Bit mask for FLEXCAN_MCR_SRX_DIS.

//! @brief Get value of FLEXCAN_MCR_SRX_DIS from a register value.
#define BG_FLEXCAN_MCR_SRX_DIS(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_SRX_DIS) >> BP_FLEXCAN_MCR_SRX_DIS)

//! @brief Format value for bitfield FLEXCAN_MCR_SRX_DIS.
#define BF_FLEXCAN_MCR_SRX_DIS(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_SRX_DIS) & BM_FLEXCAN_MCR_SRX_DIS)

#ifndef __LANGUAGE_ASM__
//! @brief Set the SRX_DIS field to a new value.
#define BW_FLEXCAN_MCR_SRX_DIS(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_SRX_DIS) | BF_FLEXCAN_MCR_SRX_DIS(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field DOZE[18] (RW)
 *
 * This bit defines whether FLEXCAN is allowed to enter low power mode when Doze Mode is requested
 * at ARM platform level. This bit is automatically reset when FLEXCAN wakes up from Doze Mode upon
 * detecting activity on the CAN bus (self wake-up enabled). Doze Mode is not supported in i.MX53
 *
 * Values:
 * - 0 - FLEXCAN is not enabled to enter low power mode when Doze Mode is requested
 * - 1 - FLEXCAN is enabled to enter low power mode when Doze Mode is requested
 */
//@{
#define BP_FLEXCAN_MCR_DOZE      (18)      //!< Bit position for FLEXCAN_MCR_DOZE.
#define BM_FLEXCAN_MCR_DOZE      (0x00040000)  //!< Bit mask for FLEXCAN_MCR_DOZE.

//! @brief Get value of FLEXCAN_MCR_DOZE from a register value.
#define BG_FLEXCAN_MCR_DOZE(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_DOZE) >> BP_FLEXCAN_MCR_DOZE)

//! @brief Format value for bitfield FLEXCAN_MCR_DOZE.
#define BF_FLEXCAN_MCR_DOZE(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_DOZE) & BM_FLEXCAN_MCR_DOZE)

#ifndef __LANGUAGE_ASM__
//! @brief Set the DOZE field to a new value.
#define BW_FLEXCAN_MCR_DOZE(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_DOZE) | BF_FLEXCAN_MCR_DOZE(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field WAK_SRC[19] (RW)
 *
 * This bit defines whether the integrated low-pass filter is applied to protect the Rx CAN input.
 *
 * Values:
 * - 1 - FLEXCAN us
 */
//@{
#define BP_FLEXCAN_MCR_WAK_SRC      (19)      //!< Bit position for FLEXCAN_MCR_WAK_SRC.
#define BM_FLEXCAN_MCR_WAK_SRC      (0x00080000)  //!< Bit mask for FLEXCAN_MCR_WAK_SRC.

//! @brief Get value of FLEXCAN_MCR_WAK_SRC from a register value.
#define BG_FLEXCAN_MCR_WAK_SRC(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_WAK_SRC) >> BP_FLEXCAN_MCR_WAK_SRC)

//! @brief Format value for bitfield FLEXCAN_MCR_WAK_SRC.
#define BF_FLEXCAN_MCR_WAK_SRC(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_WAK_SRC) & BM_FLEXCAN_MCR_WAK_SRC)

#ifndef __LANGUAGE_ASM__
//! @brief Set the WAK_SRC field to a new value.
#define BW_FLEXCAN_MCR_WAK_SRC(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_WAK_SRC) | BF_FLEXCAN_MCR_WAK_SRC(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field LPM_ACK[20] (RO)
 *
 * This read-only bit indicates that FLEXCAN is either in Disable Mode and Stop Mode. Either of
 * these low power modes can not be entered until all current transmission or reception processes
 * have finished, so the ARM can poll the LPM_ACK bit to know when FLEXCAN has actually entered low
 * power mode.
 *
 * Values:
 * - 0 - FLEXCAN not in any of the low power modes
 * - 1 - FLEXCAN is either in Disable Mode, or Stop mode
 */
//@{
#define BP_FLEXCAN_MCR_LPM_ACK      (20)      //!< Bit position for FLEXCAN_MCR_LPM_ACK.
#define BM_FLEXCAN_MCR_LPM_ACK      (0x00100000)  //!< Bit mask for FLEXCAN_MCR_LPM_ACK.

//! @brief Get value of FLEXCAN_MCR_LPM_ACK from a register value.
#define BG_FLEXCAN_MCR_LPM_ACK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_LPM_ACK) >> BP_FLEXCAN_MCR_LPM_ACK)
//@}

/*! @name Register FLEXCAN_MCR, field WRN_EN[21] (RW)
 *
 * When asserted, this bit enables the generation of the TWRN_INT and RWRN_INT flags in the Error
 * and Status Register. If WRN_EN is negated, the TWRN_INT and RWRN_INT flags will always be zero,
 * independent of the values of the error counters, and no warning interrupt will ever be generated.
 *
 * Values:
 * - 0 - TWRN_INT and RWRN_INT bits are zero, independent of the values in the error counters.
 * - 1 - TWRN_INT and RWRN_INT bits are set when the respective error counter transition from <96 to ℜ≥ 96.
 */
//@{
#define BP_FLEXCAN_MCR_WRN_EN      (21)      //!< Bit position for FLEXCAN_MCR_WRN_EN.
#define BM_FLEXCAN_MCR_WRN_EN      (0x00200000)  //!< Bit mask for FLEXCAN_MCR_WRN_EN.

//! @brief Get value of FLEXCAN_MCR_WRN_EN from a register value.
#define BG_FLEXCAN_MCR_WRN_EN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_WRN_EN) >> BP_FLEXCAN_MCR_WRN_EN)

//! @brief Format value for bitfield FLEXCAN_MCR_WRN_EN.
#define BF_FLEXCAN_MCR_WRN_EN(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_WRN_EN) & BM_FLEXCAN_MCR_WRN_EN)

#ifndef __LANGUAGE_ASM__
//! @brief Set the WRN_EN field to a new value.
#define BW_FLEXCAN_MCR_WRN_EN(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_WRN_EN) | BF_FLEXCAN_MCR_WRN_EN(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field SLF_WAK[22] (RW)
 *
 * This bit enables the Self Wake Up feature when FLEXCAN is in Stop Mode. If this bit had been
 * asserted by the time FLEXCAN entered Stop Mode, then FLEXCAN will look for a recessive to
 * dominant transition on the bus during these modes. If a transition from recessive to dominant is
 * detected during Stop Mode, then FLEXCAN generates, if enabled to do so, a Wake Up interrupt to
 * the ARM so that it can resume the clocks globally. This bit can not be written while the block is
 * in Stop Mode.
 *
 * Values:
 * - 0 - FLEXCAN Self Wake Up feature is disabled
 * - 1 - FLEXCAN Self Wake Up feature is enabled
 */
//@{
#define BP_FLEXCAN_MCR_SLF_WAK      (22)      //!< Bit position for FLEXCAN_MCR_SLF_WAK.
#define BM_FLEXCAN_MCR_SLF_WAK      (0x00400000)  //!< Bit mask for FLEXCAN_MCR_SLF_WAK.

//! @brief Get value of FLEXCAN_MCR_SLF_WAK from a register value.
#define BG_FLEXCAN_MCR_SLF_WAK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_SLF_WAK) >> BP_FLEXCAN_MCR_SLF_WAK)

//! @brief Format value for bitfield FLEXCAN_MCR_SLF_WAK.
#define BF_FLEXCAN_MCR_SLF_WAK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_SLF_WAK) & BM_FLEXCAN_MCR_SLF_WAK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the SLF_WAK field to a new value.
#define BW_FLEXCAN_MCR_SLF_WAK(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_SLF_WAK) | BF_FLEXCAN_MCR_SLF_WAK(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field SUPV[23] (RW)
 *
 * This bit configures some of the FLEXCAN registers to be either in Supervisor or Unrestricted
 * memory space. The registers affected by this bit are marked as S/U in the Access Type column of
 * the Memory Map. Reset value of this bit is 1, so the affected registers start with Supervisor
 * access restrictions.
 *
 * Values:
 * - 0 - Affected registers are in Unrestricted memory space
 * - 1 - Affected registers are in Supervisor memory space. Any access without supervisor permission behaves
 *     as though the access was done to an unimplemented register location
 */
//@{
#define BP_FLEXCAN_MCR_SUPV      (23)      //!< Bit position for FLEXCAN_MCR_SUPV.
#define BM_FLEXCAN_MCR_SUPV      (0x00800000)  //!< Bit mask for FLEXCAN_MCR_SUPV.

//! @brief Get value of FLEXCAN_MCR_SUPV from a register value.
#define BG_FLEXCAN_MCR_SUPV(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_SUPV) >> BP_FLEXCAN_MCR_SUPV)

//! @brief Format value for bitfield FLEXCAN_MCR_SUPV.
#define BF_FLEXCAN_MCR_SUPV(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_SUPV) & BM_FLEXCAN_MCR_SUPV)

#ifndef __LANGUAGE_ASM__
//! @brief Set the SUPV field to a new value.
#define BW_FLEXCAN_MCR_SUPV(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_SUPV) | BF_FLEXCAN_MCR_SUPV(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field FRZ_ACK[24] (RO)
 *
 * This read-only bit indicates that FLEXCAN is in Freeze Mode and its prescaler is stopped. The
 * Freeze Mode request cannot be granted until current transmission or reception processes have
 * finished. Therefore the software can poll the FRZ_ACK bit to know when FLEXCAN has actually
 * entered Freeze Mode. If Freeze Mode request is negated, then this bit is negated once the FLEXCAN
 * prescaler is running again. If Freeze Mode is requested while FLEXCAN is in any of the low power
 * modes, then the FRZ_ACK bit will only be set when the low power mode is exited.
 *
 * Values:
 * - 0 - FLEXCAN not in Freeze Mode, prescaler running
 * - 1 - FLEXCAN in Freeze Mode, prescaler stopped
 */
//@{
#define BP_FLEXCAN_MCR_FRZ_ACK      (24)      //!< Bit position for FLEXCAN_MCR_FRZ_ACK.
#define BM_FLEXCAN_MCR_FRZ_ACK      (0x01000000)  //!< Bit mask for FLEXCAN_MCR_FRZ_ACK.

//! @brief Get value of FLEXCAN_MCR_FRZ_ACK from a register value.
#define BG_FLEXCAN_MCR_FRZ_ACK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_FRZ_ACK) >> BP_FLEXCAN_MCR_FRZ_ACK)
//@}

/*! @name Register FLEXCAN_MCR, field SOFT_RST[25] (RW)
 *
 * When this bit is asserted, FLEXCAN resets its internal state machines and some of the memory
 * mapped registers. The following registers are reset: MCR (except the MDIS bit), TIMER, ECR, ESR,
 * IMASK1, IMASK2, IFLAG1, IFLAG2. Configuration registers that control the interface to the CAN bus
 * are not affected by soft reset. The following registers are unaffected: CTRL RXIMR0‚RXIMR63
 * RXGMASK, RX14MASK, RX15MASK all Message Buffers The SOFT_RST bit can be asserted directly by the
 * ARM when it writes to the MCR Register. Because soft reset is synchronous and has to follow a
 * request/acknowledge procedure across clock domains, it may take some time to fully propagate its
 * effect. The SOFT_RST bit remains asserted while reset is pending, and is automatically negated
 * when reset completes. Therefore, software can poll this bit to know when the soft reset has
 * completed. Soft reset cannot be applied while clocks are shut down in any of the low power modes.
 * The block should be first removed from low power mode, and then soft reset can be applied.
 *
 * Values:
 * - 0 - No reset request
 * - 1 - Resets the registers marked as affected by soft reset shown in the memory map
 */
//@{
#define BP_FLEXCAN_MCR_SOFT_RST      (25)      //!< Bit position for FLEXCAN_MCR_SOFT_RST.
#define BM_FLEXCAN_MCR_SOFT_RST      (0x02000000)  //!< Bit mask for FLEXCAN_MCR_SOFT_RST.

//! @brief Get value of FLEXCAN_MCR_SOFT_RST from a register value.
#define BG_FLEXCAN_MCR_SOFT_RST(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_SOFT_RST) >> BP_FLEXCAN_MCR_SOFT_RST)

//! @brief Format value for bitfield FLEXCAN_MCR_SOFT_RST.
#define BF_FLEXCAN_MCR_SOFT_RST(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_SOFT_RST) & BM_FLEXCAN_MCR_SOFT_RST)

#ifndef __LANGUAGE_ASM__
//! @brief Set the SOFT_RST field to a new value.
#define BW_FLEXCAN_MCR_SOFT_RST(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_SOFT_RST) | BF_FLEXCAN_MCR_SOFT_RST(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field WAK_MSK[26] (RW)
 *
 * This bit enables the Wake Up Interrupt generation.
 *
 * Values:
 * - 0 - Wake Up Interrupt is disabled
 * - 1 - Wake Up Interrupt is enabled
 */
//@{
#define BP_FLEXCAN_MCR_WAK_MSK      (26)      //!< Bit position for FLEXCAN_MCR_WAK_MSK.
#define BM_FLEXCAN_MCR_WAK_MSK      (0x04000000)  //!< Bit mask for FLEXCAN_MCR_WAK_MSK.

//! @brief Get value of FLEXCAN_MCR_WAK_MSK from a register value.
#define BG_FLEXCAN_MCR_WAK_MSK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_WAK_MSK) >> BP_FLEXCAN_MCR_WAK_MSK)

//! @brief Format value for bitfield FLEXCAN_MCR_WAK_MSK.
#define BF_FLEXCAN_MCR_WAK_MSK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_WAK_MSK) & BM_FLEXCAN_MCR_WAK_MSK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the WAK_MSK field to a new value.
#define BW_FLEXCAN_MCR_WAK_MSK(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_WAK_MSK) | BF_FLEXCAN_MCR_WAK_MSK(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field NOT_RDY[27] (RO)
 *
 * This read-only bit indicates that FLEXCAN is either in Disable Mode, Stop Mode or Freeze Mode. It
 * is negated once FLEXCAN has exited these modes.
 *
 * Values:
 * - 0 - FLEXCAN block is either in Normal Mode, Listen-Only Mode or Loop-Back Mode
 * - 1 - FLEXCAN block is either in Disable Mode, Stop Mode or Freeze Mode
 */
//@{
#define BP_FLEXCAN_MCR_NOT_RDY      (27)      //!< Bit position for FLEXCAN_MCR_NOT_RDY.
#define BM_FLEXCAN_MCR_NOT_RDY      (0x08000000)  //!< Bit mask for FLEXCAN_MCR_NOT_RDY.

//! @brief Get value of FLEXCAN_MCR_NOT_RDY from a register value.
#define BG_FLEXCAN_MCR_NOT_RDY(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_NOT_RDY) >> BP_FLEXCAN_MCR_NOT_RDY)
//@}

/*! @name Register FLEXCAN_MCR, field HALT[28] (RW)
 *
 * Assertion of this bit puts the FLEXCAN block into Freeze Mode. The ARM should clear it after
 * initializing the Message Buffers and Control Register. No reception or transmission is performed
 * by FLEXCAN before this bit is cleared. While in Freeze Mode, the ARM has write access to the
 * Error Counter Register, that is otherwise read-only. Freeze Mode can not be entered while FLEXCAN
 * is in any of the low power modes.
 *
 * Values:
 * - 0 - No Freeze Mode request.
 * - 1 - Enters Freeze Mode if the FRZ bit is asserted.
 */
//@{
#define BP_FLEXCAN_MCR_HALT      (28)      //!< Bit position for FLEXCAN_MCR_HALT.
#define BM_FLEXCAN_MCR_HALT      (0x10000000)  //!< Bit mask for FLEXCAN_MCR_HALT.

//! @brief Get value of FLEXCAN_MCR_HALT from a register value.
#define BG_FLEXCAN_MCR_HALT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_HALT) >> BP_FLEXCAN_MCR_HALT)

//! @brief Format value for bitfield FLEXCAN_MCR_HALT.
#define BF_FLEXCAN_MCR_HALT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_HALT) & BM_FLEXCAN_MCR_HALT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the HALT field to a new value.
#define BW_FLEXCAN_MCR_HALT(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_HALT) | BF_FLEXCAN_MCR_HALT(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field FEN[29] (RW)
 *
 * This bit controls whether the FIFO feature is enabled or not. When FEN is set, message buffers 0
 * to 7 cannot be used for normal reception and transmission because the corresponding memory region
 * (0x80-0xFF) is used by the FIFO engine.
 *
 * Values:
 * - 0 - FIFO not enabled
 * - 1 - FIFO enabled
 */
//@{
#define BP_FLEXCAN_MCR_FEN      (29)      //!< Bit position for FLEXCAN_MCR_FEN.
#define BM_FLEXCAN_MCR_FEN      (0x20000000)  //!< Bit mask for FLEXCAN_MCR_FEN.

//! @brief Get value of FLEXCAN_MCR_FEN from a register value.
#define BG_FLEXCAN_MCR_FEN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_FEN) >> BP_FLEXCAN_MCR_FEN)

//! @brief Format value for bitfield FLEXCAN_MCR_FEN.
#define BF_FLEXCAN_MCR_FEN(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_FEN) & BM_FLEXCAN_MCR_FEN)

#ifndef __LANGUAGE_ASM__
//! @brief Set the FEN field to a new value.
#define BW_FLEXCAN_MCR_FEN(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_FEN) | BF_FLEXCAN_MCR_FEN(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field FRZ[30] (RW)
 *
 * The FRZ bit specifies the FLEXCAN behavior when the HALT bit in the MCR Register is set or when
 * Debug Mode is requested at ARM platform level. When FRZ is asserted, FLEXCAN is enabled to enter
 * Freeze Mode. Negation of this bit field causes FLEXCAN to exit from Freeze Mode.
 *
 * Values:
 * - 0 - Not enabled to enter Freeze Mode
 * - 1 - Enabled to enter Freeze Mode
 */
//@{
#define BP_FLEXCAN_MCR_FRZ      (30)      //!< Bit position for FLEXCAN_MCR_FRZ.
#define BM_FLEXCAN_MCR_FRZ      (0x40000000)  //!< Bit mask for FLEXCAN_MCR_FRZ.

//! @brief Get value of FLEXCAN_MCR_FRZ from a register value.
#define BG_FLEXCAN_MCR_FRZ(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_FRZ) >> BP_FLEXCAN_MCR_FRZ)

//! @brief Format value for bitfield FLEXCAN_MCR_FRZ.
#define BF_FLEXCAN_MCR_FRZ(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_FRZ) & BM_FLEXCAN_MCR_FRZ)

#ifndef __LANGUAGE_ASM__
//! @brief Set the FRZ field to a new value.
#define BW_FLEXCAN_MCR_FRZ(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_FRZ) | BF_FLEXCAN_MCR_FRZ(v)))
#endif
//@}

/*! @name Register FLEXCAN_MCR, field MDIS[31] (RW)
 *
 * This bit controls whether FLEXCAN is enabled or not. When disabled, FLEXCAN shuts down the clocks
 * to the CAN Protocol Interface and Message Buffer Management sub-blocks. This is the only bit in
 * MCR not affected by soft reset.
 *
 * Values:
 * - 0 - Enable the FLEXCAN block
 * - 1 - Disable the FLEXCAN block
 */
//@{
#define BP_FLEXCAN_MCR_MDIS      (31)      //!< Bit position for FLEXCAN_MCR_MDIS.
#define BM_FLEXCAN_MCR_MDIS      (0x80000000)  //!< Bit mask for FLEXCAN_MCR_MDIS.

//! @brief Get value of FLEXCAN_MCR_MDIS from a register value.
#define BG_FLEXCAN_MCR_MDIS(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_MCR_MDIS) >> BP_FLEXCAN_MCR_MDIS)

//! @brief Format value for bitfield FLEXCAN_MCR_MDIS.
#define BF_FLEXCAN_MCR_MDIS(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_MCR_MDIS) & BM_FLEXCAN_MCR_MDIS)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MDIS field to a new value.
#define BW_FLEXCAN_MCR_MDIS(x, v)   (HW_FLEXCAN_MCR_WR(x, (HW_FLEXCAN_MCR_RD(x) & ~BM_FLEXCAN_MCR_MDIS) | BF_FLEXCAN_MCR_MDIS(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_CTRL - Control Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_CTRL - Control Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register is defined for specific FLEXCAN control features related to the CAN bus, such as
 * bit-rate, programmable sampling point within an Rx bit, Loop Back Mode, Listen Only Mode, Bus Off
 * recovery behavior and interrupt enabling (Bus-Off, Error, Warning). It also determines the
 * Division Factor for the clock prescaler. Most of the fields in this register should only be
 * changed while the block is in Disable Mode or in Freeze Mode. Exceptions are the BOFF_MSK,
 * ERR_MSK, TWRN_MSK, RWRN_MSK and BOFF_REC bits, that can be accessed at any time.
 */
typedef union _hw_flexcan_ctrl
{
    reg32_t U;
    struct _hw_flexcan_ctrl_bitfields
    {
        unsigned PROP_SEG : 3; //!< [2:0] This 3-bit field defines the length of the Propagation Segment in the bit time.
        unsigned LOM : 1; //!< [3] This bit configures FLEXCAN to operate in Listen Only Mode.
        unsigned LBUF : 1; //!< [4] This bit defines the ordering mechanism for Message Buffer transmission.
        unsigned TSYN : 1; //!< [5] This bit enables a mechanism that resets the free-running timer each time a message is received in Message Buffer 0.
        unsigned BOFF_REC : 1; //!< [6] This bit defines how FLEXCAN recovers from Bus Off state.
        unsigned SMP : 1; //!< [7] This bit defines the sampling mode of CAN bits at the Rx input.
        unsigned RESERVED0 : 2; //!< [9:8] Reserved
        unsigned RWRN_MSK : 1; //!< [10] This bit provides a mask for the Rx Warning Interrupt associated with the RWRN_INT flag in the Error and Status Register.
        unsigned TWRN_MSK : 1; //!< [11] This bit provides a mask for the Tx Warning Interrupt associated with the TWRN_INT flag in the Error and Status Register.
        unsigned LPB : 1; //!< [12] This bit configures FLEXCAN to operate in Loop-Back Mode.
        unsigned RESERVED1 : 1; //!< [13] Reserved
        unsigned ERR_MSK : 1; //!< [14] This bit provides a mask for the Error Interrupt.
        unsigned BOFF_MSK : 1; //!< [15] This bit provides a mask for the Bus Off Interrupt.
        unsigned PSEG2 : 3; //!< [18:16] This 3-bit field defines the length of Phase Buffer Segment 2 in the bit time.
        unsigned PSEG1 : 3; //!< [21:19] This 3-bit field defines the length of Phase Buffer Segment 1 in the bit time.
        unsigned RJW : 2; //!< [23:22] This 2-bit field defines the maximum number of time quanta One time quantum is equal to the Sclock period.
        unsigned PRESDIV : 8; //!< [31:24] This 8-bit field defines the ratio between the CPI clock frequency and the Serial Clock (Sclock) frequency.
    } B;
} hw_flexcan_ctrl_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_CTRL register
 */
//@{
#define HW_FLEXCAN_CTRL_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x4)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_CTRL(x)           (*(volatile hw_flexcan_ctrl_t *) HW_FLEXCAN_CTRL_ADDR(x))
#define HW_FLEXCAN_CTRL_RD(x)        (HW_FLEXCAN_CTRL(x).U)
#define HW_FLEXCAN_CTRL_WR(x, v)     (HW_FLEXCAN_CTRL(x).U = (v))
#define HW_FLEXCAN_CTRL_SET(x, v)    (HW_FLEXCAN_CTRL_WR(x, HW_FLEXCAN_CTRL_RD(x) |  (v)))
#define HW_FLEXCAN_CTRL_CLR(x, v)    (HW_FLEXCAN_CTRL_WR(x, HW_FLEXCAN_CTRL_RD(x) & ~(v)))
#define HW_FLEXCAN_CTRL_TOG(x, v)    (HW_FLEXCAN_CTRL_WR(x, HW_FLEXCAN_CTRL_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_CTRL bitfields
 */

/*! @name Register FLEXCAN_CTRL, field PROP_SEG[2:0] (RW)
 *
 * This 3-bit field defines the length of the Propagation Segment in the bit time. The valid
 * programmable values are 0‚7. Propagation Segment Time = (PROPSEG + 1) * Time-Quanta. Time-Quantum
 * = one Sclock period.
 */
//@{
#define BP_FLEXCAN_CTRL_PROP_SEG      (0)      //!< Bit position for FLEXCAN_CTRL_PROP_SEG.
#define BM_FLEXCAN_CTRL_PROP_SEG      (0x00000007)  //!< Bit mask for FLEXCAN_CTRL_PROP_SEG.

//! @brief Get value of FLEXCAN_CTRL_PROP_SEG from a register value.
#define BG_FLEXCAN_CTRL_PROP_SEG(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_PROP_SEG) >> BP_FLEXCAN_CTRL_PROP_SEG)

//! @brief Format value for bitfield FLEXCAN_CTRL_PROP_SEG.
#define BF_FLEXCAN_CTRL_PROP_SEG(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_PROP_SEG) & BM_FLEXCAN_CTRL_PROP_SEG)

#ifndef __LANGUAGE_ASM__
//! @brief Set the PROP_SEG field to a new value.
#define BW_FLEXCAN_CTRL_PROP_SEG(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_PROP_SEG) | BF_FLEXCAN_CTRL_PROP_SEG(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field LOM[3] (RW)
 *
 * This bit configures FLEXCAN to operate in Listen Only Mode. In this mode, transmission is
 * disabled, all error counters are frozen and the block operates in a CAN Error Passive mode [Ref.
 * 1]. Only messages acknowledged by another CAN station will be received. If FLEXCAN detects a
 * message that has not been acknowledged, it will flag a BIT0 error (without changing the REC), as
 * if it was trying to acknowledge the message.
 *
 * Values:
 * - 0 - Listen Only Mode is deactivated
 * - 1 - FLEXCAN block operates in Listen Only Mode
 */
//@{
#define BP_FLEXCAN_CTRL_LOM      (3)      //!< Bit position for FLEXCAN_CTRL_LOM.
#define BM_FLEXCAN_CTRL_LOM      (0x00000008)  //!< Bit mask for FLEXCAN_CTRL_LOM.

//! @brief Get value of FLEXCAN_CTRL_LOM from a register value.
#define BG_FLEXCAN_CTRL_LOM(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_LOM) >> BP_FLEXCAN_CTRL_LOM)

//! @brief Format value for bitfield FLEXCAN_CTRL_LOM.
#define BF_FLEXCAN_CTRL_LOM(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_LOM) & BM_FLEXCAN_CTRL_LOM)

#ifndef __LANGUAGE_ASM__
//! @brief Set the LOM field to a new value.
#define BW_FLEXCAN_CTRL_LOM(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_LOM) | BF_FLEXCAN_CTRL_LOM(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field LBUF[4] (RW)
 *
 * This bit defines the ordering mechanism for Message Buffer transmission. When asserted, the
 * LPRIO_EN bit does not affect the priority arbitration.
 *
 * Values:
 * - 0 - Buffer with highest priority is transmitted first
 * - 1 - Lowest number buffer is transmitted first
 */
//@{
#define BP_FLEXCAN_CTRL_LBUF      (4)      //!< Bit position for FLEXCAN_CTRL_LBUF.
#define BM_FLEXCAN_CTRL_LBUF      (0x00000010)  //!< Bit mask for FLEXCAN_CTRL_LBUF.

//! @brief Get value of FLEXCAN_CTRL_LBUF from a register value.
#define BG_FLEXCAN_CTRL_LBUF(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_LBUF) >> BP_FLEXCAN_CTRL_LBUF)

//! @brief Format value for bitfield FLEXCAN_CTRL_LBUF.
#define BF_FLEXCAN_CTRL_LBUF(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_LBUF) & BM_FLEXCAN_CTRL_LBUF)

#ifndef __LANGUAGE_ASM__
//! @brief Set the LBUF field to a new value.
#define BW_FLEXCAN_CTRL_LBUF(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_LBUF) | BF_FLEXCAN_CTRL_LBUF(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field TSYN[5] (RW)
 *
 * This bit enables a mechanism that resets the free-running timer each time a message is received
 * in Message Buffer 0. This feature provides a means to synchronize multiple FLEXCAN stations with
 * a special SYNC message (for example, global network time). If the FEN bit in MCR is set (FIFO
 * enabled), MB8 is used for timer synchronization instead of MB0.
 *
 * Values:
 * - 0 - Timer Sync feature disabled
 * - 1 - Timer Sync feature enabled
 */
//@{
#define BP_FLEXCAN_CTRL_TSYN      (5)      //!< Bit position for FLEXCAN_CTRL_TSYN.
#define BM_FLEXCAN_CTRL_TSYN      (0x00000020)  //!< Bit mask for FLEXCAN_CTRL_TSYN.

//! @brief Get value of FLEXCAN_CTRL_TSYN from a register value.
#define BG_FLEXCAN_CTRL_TSYN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_TSYN) >> BP_FLEXCAN_CTRL_TSYN)

//! @brief Format value for bitfield FLEXCAN_CTRL_TSYN.
#define BF_FLEXCAN_CTRL_TSYN(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_TSYN) & BM_FLEXCAN_CTRL_TSYN)

#ifndef __LANGUAGE_ASM__
//! @brief Set the TSYN field to a new value.
#define BW_FLEXCAN_CTRL_TSYN(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_TSYN) | BF_FLEXCAN_CTRL_TSYN(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field BOFF_REC[6] (RW)
 *
 * This bit defines how FLEXCAN recovers from Bus Off state. If this bit is negated, automatic
 * recovering from Bus Off state occurs according to the CAN Specification 2.0B. If the bit is
 * asserted, automatic recovering from Bus Off is disabled and the block remains in Bus Off state
 * until the bit is negated by the user. If the negation occurs before 128 sequences of 11 recessive
 * bits are detected on the CAN bus, then Bus Off recovery happens as if the BOFF_REC bit had never
 * been asserted. If the negation occurs after 128 sequences of 11 recessive bits occurred, then
 * FLEXCAN will re-synchronize to the bus by waiting for 11 recessive bits before joining the bus.
 * After negation, the BOFF_REC bit can be re-asserted again during Bus Off, but it will only be
 * effective the next time the block enters Bus Off. If BOFF_REC was negated when the block entered
 * Bus Off, asserting it during Bus Off will not be effective for the current Bus Off recovery.
 *
 * Values:
 * - 0 - Automatic recovering from Bus Off state enabled, according to CAN Spec 2.0 part B
 * - 1 - Automatic recovering from Bus Off state disabled
 */
//@{
#define BP_FLEXCAN_CTRL_BOFF_REC      (6)      //!< Bit position for FLEXCAN_CTRL_BOFF_REC.
#define BM_FLEXCAN_CTRL_BOFF_REC      (0x00000040)  //!< Bit mask for FLEXCAN_CTRL_BOFF_REC.

//! @brief Get value of FLEXCAN_CTRL_BOFF_REC from a register value.
#define BG_FLEXCAN_CTRL_BOFF_REC(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_BOFF_REC) >> BP_FLEXCAN_CTRL_BOFF_REC)

//! @brief Format value for bitfield FLEXCAN_CTRL_BOFF_REC.
#define BF_FLEXCAN_CTRL_BOFF_REC(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_BOFF_REC) & BM_FLEXCAN_CTRL_BOFF_REC)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BOFF_REC field to a new value.
#define BW_FLEXCAN_CTRL_BOFF_REC(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_BOFF_REC) | BF_FLEXCAN_CTRL_BOFF_REC(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field SMP[7] (RW)
 *
 * This bit defines the sampling mode of CAN bits at the Rx input.
 *
 * Values:
 * - 0 - Just one sample is used to determine the bit value
 * - 1 - Three samples are used to determine the value of the received bit: the regular one (sample point)
 *     and 2 preceding samples, a majority rule is used
 */
//@{
#define BP_FLEXCAN_CTRL_SMP      (7)      //!< Bit position for FLEXCAN_CTRL_SMP.
#define BM_FLEXCAN_CTRL_SMP      (0x00000080)  //!< Bit mask for FLEXCAN_CTRL_SMP.

//! @brief Get value of FLEXCAN_CTRL_SMP from a register value.
#define BG_FLEXCAN_CTRL_SMP(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_SMP) >> BP_FLEXCAN_CTRL_SMP)

//! @brief Format value for bitfield FLEXCAN_CTRL_SMP.
#define BF_FLEXCAN_CTRL_SMP(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_SMP) & BM_FLEXCAN_CTRL_SMP)

#ifndef __LANGUAGE_ASM__
//! @brief Set the SMP field to a new value.
#define BW_FLEXCAN_CTRL_SMP(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_SMP) | BF_FLEXCAN_CTRL_SMP(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field RWRN_MSK[10] (RW)
 *
 * This bit provides a mask for the Rx Warning Interrupt associated with the RWRN_INT flag in the
 * Error and Status Register. This bit has no effect if the WRN_EN bit in MCR is negated and it is
 * read as zero when WRN_EN is negated.
 *
 * Values:
 * - 0 - Rx Warning Interrupt disabled
 * - 1 - Rx Warning Interrupt enabled
 */
//@{
#define BP_FLEXCAN_CTRL_RWRN_MSK      (10)      //!< Bit position for FLEXCAN_CTRL_RWRN_MSK.
#define BM_FLEXCAN_CTRL_RWRN_MSK      (0x00000400)  //!< Bit mask for FLEXCAN_CTRL_RWRN_MSK.

//! @brief Get value of FLEXCAN_CTRL_RWRN_MSK from a register value.
#define BG_FLEXCAN_CTRL_RWRN_MSK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_RWRN_MSK) >> BP_FLEXCAN_CTRL_RWRN_MSK)

//! @brief Format value for bitfield FLEXCAN_CTRL_RWRN_MSK.
#define BF_FLEXCAN_CTRL_RWRN_MSK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_RWRN_MSK) & BM_FLEXCAN_CTRL_RWRN_MSK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the RWRN_MSK field to a new value.
#define BW_FLEXCAN_CTRL_RWRN_MSK(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_RWRN_MSK) | BF_FLEXCAN_CTRL_RWRN_MSK(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field TWRN_MSK[11] (RW)
 *
 * This bit provides a mask for the Tx Warning Interrupt associated with the TWRN_INT flag in the
 * Error and Status Register. This bit has no effect if the WRN_EN bit in MCR is negated and it is
 * read as zero when WRN_EN is negated.
 *
 * Values:
 * - 0 - Tx Warning Interrupt disabled
 * - 1 - Tx Warning Interrupt enabled
 */
//@{
#define BP_FLEXCAN_CTRL_TWRN_MSK      (11)      //!< Bit position for FLEXCAN_CTRL_TWRN_MSK.
#define BM_FLEXCAN_CTRL_TWRN_MSK      (0x00000800)  //!< Bit mask for FLEXCAN_CTRL_TWRN_MSK.

//! @brief Get value of FLEXCAN_CTRL_TWRN_MSK from a register value.
#define BG_FLEXCAN_CTRL_TWRN_MSK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_TWRN_MSK) >> BP_FLEXCAN_CTRL_TWRN_MSK)

//! @brief Format value for bitfield FLEXCAN_CTRL_TWRN_MSK.
#define BF_FLEXCAN_CTRL_TWRN_MSK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_TWRN_MSK) & BM_FLEXCAN_CTRL_TWRN_MSK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the TWRN_MSK field to a new value.
#define BW_FLEXCAN_CTRL_TWRN_MSK(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_TWRN_MSK) | BF_FLEXCAN_CTRL_TWRN_MSK(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field LPB[12] (RW)
 *
 * This bit configures FLEXCAN to operate in Loop-Back Mode. In this mode, FLEXCAN performs an
 * internal loop back that can be used for self test operation. The bit stream output of the
 * transmitter is fed back internally to the receiver input. The Rx CAN input pin is ignored and the
 * Tx CAN output goes to the recessive state (logic 1). FLEXCAN behaves as it normally does when
 * transmitting, and treats its own transmitted message as a message received from a remote node. In
 * this mode, FLEXCAN ignores the bit sent during the ACK slot in the CAN frame acknowledge field,
 * generating an internal acknowledge bit to ensure proper reception of its own message. Both
 * transmit and receive interrupts are generated.
 *
 * Values:
 * - 0 - Loop Back disabled
 * - 1 - Loop Back enabled
 */
//@{
#define BP_FLEXCAN_CTRL_LPB      (12)      //!< Bit position for FLEXCAN_CTRL_LPB.
#define BM_FLEXCAN_CTRL_LPB      (0x00001000)  //!< Bit mask for FLEXCAN_CTRL_LPB.

//! @brief Get value of FLEXCAN_CTRL_LPB from a register value.
#define BG_FLEXCAN_CTRL_LPB(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_LPB) >> BP_FLEXCAN_CTRL_LPB)

//! @brief Format value for bitfield FLEXCAN_CTRL_LPB.
#define BF_FLEXCAN_CTRL_LPB(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_LPB) & BM_FLEXCAN_CTRL_LPB)

#ifndef __LANGUAGE_ASM__
//! @brief Set the LPB field to a new value.
#define BW_FLEXCAN_CTRL_LPB(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_LPB) | BF_FLEXCAN_CTRL_LPB(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field ERR_MSK[14] (RW)
 *
 * This bit provides a mask for the Error Interrupt.
 *
 * Values:
 * - 0 - Error interrupt disabled
 * - 1 - Error interrupt enabled
 */
//@{
#define BP_FLEXCAN_CTRL_ERR_MSK      (14)      //!< Bit position for FLEXCAN_CTRL_ERR_MSK.
#define BM_FLEXCAN_CTRL_ERR_MSK      (0x00004000)  //!< Bit mask for FLEXCAN_CTRL_ERR_MSK.

//! @brief Get value of FLEXCAN_CTRL_ERR_MSK from a register value.
#define BG_FLEXCAN_CTRL_ERR_MSK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_ERR_MSK) >> BP_FLEXCAN_CTRL_ERR_MSK)

//! @brief Format value for bitfield FLEXCAN_CTRL_ERR_MSK.
#define BF_FLEXCAN_CTRL_ERR_MSK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_ERR_MSK) & BM_FLEXCAN_CTRL_ERR_MSK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the ERR_MSK field to a new value.
#define BW_FLEXCAN_CTRL_ERR_MSK(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_ERR_MSK) | BF_FLEXCAN_CTRL_ERR_MSK(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field BOFF_MSK[15] (RW)
 *
 * This bit provides a mask for the Bus Off Interrupt.
 *
 * Values:
 * - 0 - Bus Off interrupt disabled
 * - 1 - Bus Off interrupt enabled
 */
//@{
#define BP_FLEXCAN_CTRL_BOFF_MSK      (15)      //!< Bit position for FLEXCAN_CTRL_BOFF_MSK.
#define BM_FLEXCAN_CTRL_BOFF_MSK      (0x00008000)  //!< Bit mask for FLEXCAN_CTRL_BOFF_MSK.

//! @brief Get value of FLEXCAN_CTRL_BOFF_MSK from a register value.
#define BG_FLEXCAN_CTRL_BOFF_MSK(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_BOFF_MSK) >> BP_FLEXCAN_CTRL_BOFF_MSK)

//! @brief Format value for bitfield FLEXCAN_CTRL_BOFF_MSK.
#define BF_FLEXCAN_CTRL_BOFF_MSK(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_BOFF_MSK) & BM_FLEXCAN_CTRL_BOFF_MSK)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BOFF_MSK field to a new value.
#define BW_FLEXCAN_CTRL_BOFF_MSK(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_BOFF_MSK) | BF_FLEXCAN_CTRL_BOFF_MSK(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field PSEG2[18:16] (RW)
 *
 * This 3-bit field defines the length of Phase Buffer Segment 2 in the bit time. The valid
 * programmable values are 1‚7. Phase Buffer Segment 2 = (PSEG2 + 1) x Time-Quanta.
 */
//@{
#define BP_FLEXCAN_CTRL_PSEG2      (16)      //!< Bit position for FLEXCAN_CTRL_PSEG2.
#define BM_FLEXCAN_CTRL_PSEG2      (0x00070000)  //!< Bit mask for FLEXCAN_CTRL_PSEG2.

//! @brief Get value of FLEXCAN_CTRL_PSEG2 from a register value.
#define BG_FLEXCAN_CTRL_PSEG2(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_PSEG2) >> BP_FLEXCAN_CTRL_PSEG2)

//! @brief Format value for bitfield FLEXCAN_CTRL_PSEG2.
#define BF_FLEXCAN_CTRL_PSEG2(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_PSEG2) & BM_FLEXCAN_CTRL_PSEG2)

#ifndef __LANGUAGE_ASM__
//! @brief Set the PSEG2 field to a new value.
#define BW_FLEXCAN_CTRL_PSEG2(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_PSEG2) | BF_FLEXCAN_CTRL_PSEG2(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field PSEG1[21:19] (RW)
 *
 * This 3-bit field defines the length of Phase Buffer Segment 1 in the bit time. The valid
 * programmable values are 0‚7. Phase Buffer Segment 1 = (PSEG1 + 1) x Time-Quanta.
 */
//@{
#define BP_FLEXCAN_CTRL_PSEG1      (19)      //!< Bit position for FLEXCAN_CTRL_PSEG1.
#define BM_FLEXCAN_CTRL_PSEG1      (0x00380000)  //!< Bit mask for FLEXCAN_CTRL_PSEG1.

//! @brief Get value of FLEXCAN_CTRL_PSEG1 from a register value.
#define BG_FLEXCAN_CTRL_PSEG1(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_PSEG1) >> BP_FLEXCAN_CTRL_PSEG1)

//! @brief Format value for bitfield FLEXCAN_CTRL_PSEG1.
#define BF_FLEXCAN_CTRL_PSEG1(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_PSEG1) & BM_FLEXCAN_CTRL_PSEG1)

#ifndef __LANGUAGE_ASM__
//! @brief Set the PSEG1 field to a new value.
#define BW_FLEXCAN_CTRL_PSEG1(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_PSEG1) | BF_FLEXCAN_CTRL_PSEG1(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field RJW[23:22] (RW)
 *
 * This 2-bit field defines the maximum number of time quanta One time quantum is equal to the
 * Sclock period. that a bit time can be changed by one re-synchronization. The valid programmable
 * values are 0‚3. Resync Jump Width = RJW + 1.
 */
//@{
#define BP_FLEXCAN_CTRL_RJW      (22)      //!< Bit position for FLEXCAN_CTRL_RJW.
#define BM_FLEXCAN_CTRL_RJW      (0x00c00000)  //!< Bit mask for FLEXCAN_CTRL_RJW.

//! @brief Get value of FLEXCAN_CTRL_RJW from a register value.
#define BG_FLEXCAN_CTRL_RJW(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_RJW) >> BP_FLEXCAN_CTRL_RJW)

//! @brief Format value for bitfield FLEXCAN_CTRL_RJW.
#define BF_FLEXCAN_CTRL_RJW(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_RJW) & BM_FLEXCAN_CTRL_RJW)

#ifndef __LANGUAGE_ASM__
//! @brief Set the RJW field to a new value.
#define BW_FLEXCAN_CTRL_RJW(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_RJW) | BF_FLEXCAN_CTRL_RJW(v)))
#endif
//@}

/*! @name Register FLEXCAN_CTRL, field PRESDIV[31:24] (RW)
 *
 * This 8-bit field defines the ratio between the CPI clock frequency and the Serial Clock (Sclock)
 * frequency. The Sclock period defines the time quantum of the CAN protocol. For the reset value,
 * the Sclock frequency is equal to the CPI clock frequency. The Maximum value of this register is
 * 0xFF, that gives a minimum Sclock frequency equal to the CPI clock frequency divided by 256. For
 * more information refer to . Sclock frequency = CPI clock frequency / (PRESDIV + 1)
 */
//@{
#define BP_FLEXCAN_CTRL_PRESDIV      (24)      //!< Bit position for FLEXCAN_CTRL_PRESDIV.
#define BM_FLEXCAN_CTRL_PRESDIV      (0xff000000)  //!< Bit mask for FLEXCAN_CTRL_PRESDIV.

//! @brief Get value of FLEXCAN_CTRL_PRESDIV from a register value.
#define BG_FLEXCAN_CTRL_PRESDIV(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_CTRL_PRESDIV) >> BP_FLEXCAN_CTRL_PRESDIV)

//! @brief Format value for bitfield FLEXCAN_CTRL_PRESDIV.
#define BF_FLEXCAN_CTRL_PRESDIV(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_CTRL_PRESDIV) & BM_FLEXCAN_CTRL_PRESDIV)

#ifndef __LANGUAGE_ASM__
//! @brief Set the PRESDIV field to a new value.
#define BW_FLEXCAN_CTRL_PRESDIV(x, v)   (HW_FLEXCAN_CTRL_WR(x, (HW_FLEXCAN_CTRL_RD(x) & ~BM_FLEXCAN_CTRL_PRESDIV) | BF_FLEXCAN_CTRL_PRESDIV(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_TIMER - Free Running Timer
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_TIMER - Free Running Timer (RW)
 *
 * Reset value: 0x00000000
 *
 * This register represents a 16-bit free running counter that can be read and written by the ARM.
 * The timer starts from 0x0000 after Reset, counts linearly to 0xFFFF, and wraps around. The timer
 * is clocked by the FLEXCAN bit-clock (which defines the baud rate on the CAN bus). During a
 * message transmission/reception, it increments by one for each bit that is received or
 * transmitted. When there is no message on the bus, it counts using the previously programmed baud
 * rate. During Freeze Mode, the timer is not incremented. The timer value is captured at the
 * beginning of the identifier field of any frame on the CAN bus. This captured value is written
 * into the Time Stamp entry in a message buffer after a successful reception or transmission of a
 * message. Writing to the timer is an indirect operation. The data is first written to an auxiliary
 * register and then an internal request/acknowledge procedure across clock domains is executed. All
 * this is transparent to the user, except for the fact that the data will take some time to be
 * actually written to the register. If desired, software can poll the register to discover when the
 * data was actually written.
 */
typedef union _hw_flexcan_timer
{
    reg32_t U;
    struct _hw_flexcan_timer_bitfields
    {
        unsigned TIMER : 16; //!< [15:0] Timer value
        unsigned RESERVED0 : 16; //!< [31:16] This read-only bitfield is reserved and always has the value zero.
    } B;
} hw_flexcan_timer_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_TIMER register
 */
//@{
#define HW_FLEXCAN_TIMER_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x8)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_TIMER(x)           (*(volatile hw_flexcan_timer_t *) HW_FLEXCAN_TIMER_ADDR(x))
#define HW_FLEXCAN_TIMER_RD(x)        (HW_FLEXCAN_TIMER(x).U)
#define HW_FLEXCAN_TIMER_WR(x, v)     (HW_FLEXCAN_TIMER(x).U = (v))
#define HW_FLEXCAN_TIMER_SET(x, v)    (HW_FLEXCAN_TIMER_WR(x, HW_FLEXCAN_TIMER_RD(x) |  (v)))
#define HW_FLEXCAN_TIMER_CLR(x, v)    (HW_FLEXCAN_TIMER_WR(x, HW_FLEXCAN_TIMER_RD(x) & ~(v)))
#define HW_FLEXCAN_TIMER_TOG(x, v)    (HW_FLEXCAN_TIMER_WR(x, HW_FLEXCAN_TIMER_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_TIMER bitfields
 */

/*! @name Register FLEXCAN_TIMER, field TIMER[15:0] (RW)
 *
 * Timer value Contains the free-running counter value.
 */
//@{
#define BP_FLEXCAN_TIMER_TIMER      (0)      //!< Bit position for FLEXCAN_TIMER_TIMER.
#define BM_FLEXCAN_TIMER_TIMER      (0x0000ffff)  //!< Bit mask for FLEXCAN_TIMER_TIMER.

//! @brief Get value of FLEXCAN_TIMER_TIMER from a register value.
#define BG_FLEXCAN_TIMER_TIMER(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_TIMER_TIMER) >> BP_FLEXCAN_TIMER_TIMER)

//! @brief Format value for bitfield FLEXCAN_TIMER_TIMER.
#define BF_FLEXCAN_TIMER_TIMER(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_TIMER_TIMER) & BM_FLEXCAN_TIMER_TIMER)

#ifndef __LANGUAGE_ASM__
//! @brief Set the TIMER field to a new value.
#define BW_FLEXCAN_TIMER_TIMER(x, v)   (HW_FLEXCAN_TIMER_WR(x, (HW_FLEXCAN_TIMER_RD(x) & ~BM_FLEXCAN_TIMER_TIMER) | BF_FLEXCAN_TIMER_TIMER(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_RXGMASK - Rx Global Mask
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_RXGMASK - Rx Global Mask (RW)
 *
 * Reset value: 0xffffffff
 *
 * Supports individual masks per message buffer, setting the BCC bit in MCR causes the RXGMASK
 * Register to have no effect on the block operation. RXGMASK is used as acceptance mask for all Rx
 * message buffers, excluding message buffers 14‚ 15, which have individual mask registers. When the
 * FEN bit in MCR is set (FIFO enabled), the RXGMASK also applies to all elements of the ID filter
 * table, except elements 6-7, which have individual masks. The contents of this register must be
 * programmed while the block is in Freeze Mode, and must not be modified when the block is
 * transmitting or receiving frames.
 */
typedef union _hw_flexcan_rxgmask
{
    reg32_t U;
    struct _hw_flexcan_rxgmask_bitfields
    {
        unsigned MI31_MI0 : 32; //!< [31:0] For normal Rx message buffers, the mask bits affect the ID filter programmed on the message buffer.
    } B;
} hw_flexcan_rxgmask_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_RXGMASK register
 */
//@{
#define HW_FLEXCAN_RXGMASK_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x10)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_RXGMASK(x)           (*(volatile hw_flexcan_rxgmask_t *) HW_FLEXCAN_RXGMASK_ADDR(x))
#define HW_FLEXCAN_RXGMASK_RD(x)        (HW_FLEXCAN_RXGMASK(x).U)
#define HW_FLEXCAN_RXGMASK_WR(x, v)     (HW_FLEXCAN_RXGMASK(x).U = (v))
#define HW_FLEXCAN_RXGMASK_SET(x, v)    (HW_FLEXCAN_RXGMASK_WR(x, HW_FLEXCAN_RXGMASK_RD(x) |  (v)))
#define HW_FLEXCAN_RXGMASK_CLR(x, v)    (HW_FLEXCAN_RXGMASK_WR(x, HW_FLEXCAN_RXGMASK_RD(x) & ~(v)))
#define HW_FLEXCAN_RXGMASK_TOG(x, v)    (HW_FLEXCAN_RXGMASK_WR(x, HW_FLEXCAN_RXGMASK_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_RXGMASK bitfields
 */

/*! @name Register FLEXCAN_RXGMASK, field MI31_MI0[31:0] (RW)
 *
 * For normal Rx message buffers, the mask bits affect the ID filter programmed on the message
 * buffer. For the Rx FIFO, the mask bits affect all bits programmed in the filter table (ID, IDE,
 * RTR).
 *
 * Values:
 * - 0 - the corresponding bit in the filter is dont care
 * - 1 - The corresponding bit in the filter is checked against the one received
 */
//@{
#define BP_FLEXCAN_RXGMASK_MI31_MI0      (0)      //!< Bit position for FLEXCAN_RXGMASK_MI31_MI0.
#define BM_FLEXCAN_RXGMASK_MI31_MI0      (0xffffffff)  //!< Bit mask for FLEXCAN_RXGMASK_MI31_MI0.

//! @brief Get value of FLEXCAN_RXGMASK_MI31_MI0 from a register value.
#define BG_FLEXCAN_RXGMASK_MI31_MI0(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_RXGMASK_MI31_MI0) >> BP_FLEXCAN_RXGMASK_MI31_MI0)

//! @brief Format value for bitfield FLEXCAN_RXGMASK_MI31_MI0.
#define BF_FLEXCAN_RXGMASK_MI31_MI0(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_RXGMASK_MI31_MI0) & BM_FLEXCAN_RXGMASK_MI31_MI0)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MI31_MI0 field to a new value.
#define BW_FLEXCAN_RXGMASK_MI31_MI0(x, v)   (HW_FLEXCAN_RXGMASK_WR(x, (HW_FLEXCAN_RXGMASK_RD(x) & ~BM_FLEXCAN_RXGMASK_MI31_MI0) | BF_FLEXCAN_RXGMASK_MI31_MI0(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_RX14MASK - Rx 14 Mask
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_RX14MASK - Rx 14 Mask (RW)
 *
 * Reset value: 0xffffffff
 *
 * Setting the BCC bit in MCR causes the RX14MASK Register to have no effect on the block operation.
 * RX14MASK is used as acceptance mask for the Identifier in Message Buffer 14. When the FEN bit in
 * MCR is set (FIFO enabled), the RXG14MASK also applies to element 6 of the ID filter table. This
 * register has the same structure as the Rx Global Mask Register. It must be programmed while the
 * block is in Freeze Mode, and must not be modified when the block is transmitting or receiving
 * frames. Address Offset: 0x14 Reset Value: 0xFFFF_FFFF
 */
typedef union _hw_flexcan_rx14mask
{
    reg32_t U;
    struct _hw_flexcan_rx14mask_bitfields
    {
        unsigned MI31_MI0 : 32; //!< [31:0] Acceptance mask for the Identifier in Message Buffer 14
    } B;
} hw_flexcan_rx14mask_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_RX14MASK register
 */
//@{
#define HW_FLEXCAN_RX14MASK_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x14)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_RX14MASK(x)           (*(volatile hw_flexcan_rx14mask_t *) HW_FLEXCAN_RX14MASK_ADDR(x))
#define HW_FLEXCAN_RX14MASK_RD(x)        (HW_FLEXCAN_RX14MASK(x).U)
#define HW_FLEXCAN_RX14MASK_WR(x, v)     (HW_FLEXCAN_RX14MASK(x).U = (v))
#define HW_FLEXCAN_RX14MASK_SET(x, v)    (HW_FLEXCAN_RX14MASK_WR(x, HW_FLEXCAN_RX14MASK_RD(x) |  (v)))
#define HW_FLEXCAN_RX14MASK_CLR(x, v)    (HW_FLEXCAN_RX14MASK_WR(x, HW_FLEXCAN_RX14MASK_RD(x) & ~(v)))
#define HW_FLEXCAN_RX14MASK_TOG(x, v)    (HW_FLEXCAN_RX14MASK_WR(x, HW_FLEXCAN_RX14MASK_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_RX14MASK bitfields
 */

/*! @name Register FLEXCAN_RX14MASK, field MI31_MI0[31:0] (RW)
 *
 * Acceptance mask for the Identifier in Message Buffer 14
 */
//@{
#define BP_FLEXCAN_RX14MASK_MI31_MI0      (0)      //!< Bit position for FLEXCAN_RX14MASK_MI31_MI0.
#define BM_FLEXCAN_RX14MASK_MI31_MI0      (0xffffffff)  //!< Bit mask for FLEXCAN_RX14MASK_MI31_MI0.

//! @brief Get value of FLEXCAN_RX14MASK_MI31_MI0 from a register value.
#define BG_FLEXCAN_RX14MASK_MI31_MI0(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_RX14MASK_MI31_MI0) >> BP_FLEXCAN_RX14MASK_MI31_MI0)

//! @brief Format value for bitfield FLEXCAN_RX14MASK_MI31_MI0.
#define BF_FLEXCAN_RX14MASK_MI31_MI0(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_RX14MASK_MI31_MI0) & BM_FLEXCAN_RX14MASK_MI31_MI0)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MI31_MI0 field to a new value.
#define BW_FLEXCAN_RX14MASK_MI31_MI0(x, v)   (HW_FLEXCAN_RX14MASK_WR(x, (HW_FLEXCAN_RX14MASK_RD(x) & ~BM_FLEXCAN_RX14MASK_MI31_MI0) | BF_FLEXCAN_RX14MASK_MI31_MI0(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_RX15MASK - Rx 15 Mask
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_RX15MASK - Rx 15 Mask (RW)
 *
 * Reset value: 0xffffffff
 *
 * Setting the BCC bit in MCR causes the RX15MASK Register to have no effect on the block operation.
 * When the BCC bit is negated, RX15MASK is used as acceptance mask for the Identifier in Message
 * Buffer 15. When the FEN bit in MCR is set (FIFO enabled), the RXG14MASK also applies to element 7
 * of the ID filter table. This register has the same structure as the Rx Global Mask Register. It
 * must be programmed while the block is in Freeze Mode, and must not be modified when the block is
 * transmitting or receiving frames. Address Offset: 0x18 Reset Value: 0xFFFF_FFFF
 */
typedef union _hw_flexcan_rx15mask
{
    reg32_t U;
    struct _hw_flexcan_rx15mask_bitfields
    {
        unsigned MI31_MI0 : 32; //!< [31:0] Acceptance mask for the Identifier in Message Buffer 15
    } B;
} hw_flexcan_rx15mask_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_RX15MASK register
 */
//@{
#define HW_FLEXCAN_RX15MASK_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x18)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_RX15MASK(x)           (*(volatile hw_flexcan_rx15mask_t *) HW_FLEXCAN_RX15MASK_ADDR(x))
#define HW_FLEXCAN_RX15MASK_RD(x)        (HW_FLEXCAN_RX15MASK(x).U)
#define HW_FLEXCAN_RX15MASK_WR(x, v)     (HW_FLEXCAN_RX15MASK(x).U = (v))
#define HW_FLEXCAN_RX15MASK_SET(x, v)    (HW_FLEXCAN_RX15MASK_WR(x, HW_FLEXCAN_RX15MASK_RD(x) |  (v)))
#define HW_FLEXCAN_RX15MASK_CLR(x, v)    (HW_FLEXCAN_RX15MASK_WR(x, HW_FLEXCAN_RX15MASK_RD(x) & ~(v)))
#define HW_FLEXCAN_RX15MASK_TOG(x, v)    (HW_FLEXCAN_RX15MASK_WR(x, HW_FLEXCAN_RX15MASK_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_RX15MASK bitfields
 */

/*! @name Register FLEXCAN_RX15MASK, field MI31_MI0[31:0] (RW)
 *
 * Acceptance mask for the Identifier in Message Buffer 15
 */
//@{
#define BP_FLEXCAN_RX15MASK_MI31_MI0      (0)      //!< Bit position for FLEXCAN_RX15MASK_MI31_MI0.
#define BM_FLEXCAN_RX15MASK_MI31_MI0      (0xffffffff)  //!< Bit mask for FLEXCAN_RX15MASK_MI31_MI0.

//! @brief Get value of FLEXCAN_RX15MASK_MI31_MI0 from a register value.
#define BG_FLEXCAN_RX15MASK_MI31_MI0(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_RX15MASK_MI31_MI0) >> BP_FLEXCAN_RX15MASK_MI31_MI0)

//! @brief Format value for bitfield FLEXCAN_RX15MASK_MI31_MI0.
#define BF_FLEXCAN_RX15MASK_MI31_MI0(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_RX15MASK_MI31_MI0) & BM_FLEXCAN_RX15MASK_MI31_MI0)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MI31_MI0 field to a new value.
#define BW_FLEXCAN_RX15MASK_MI31_MI0(x, v)   (HW_FLEXCAN_RX15MASK_WR(x, (HW_FLEXCAN_RX15MASK_RD(x) & ~BM_FLEXCAN_RX15MASK_MI31_MI0) | BF_FLEXCAN_RX15MASK_MI31_MI0(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_ECR - Error Counter Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_ECR - Error Counter Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register has 2 8-bit fields reflecting the value of two FLEXCAN error counters: Transmit
 * Error Counter (Tx_Err_Counter field) and Receive Error Counter (Rx_Err_Counter field). The rules
 * for increasing and decreasing these counters are described in the CAN protocol and are completely
 * implemented in the FLEXCAN block. Both counters are read only except in Freeze Mode, where they
 * can be written by the ARM. Writing to the Error Counter Register while in Freeze Mode is an
 * indirect operation. The data is first written to an auxiliary register and then an internal
 * request/acknowledge procedure across clock domains is executed. All this is transparent to the
 * user, except for the fact that the data will take some time to be actually written to the
 * register. If desired, software can poll the register to discover when the data was actually
 * written. FLEXCAN responds to any bus state as described in the protocolthat is transmit Error
 * Active or Error Passive flag, delay its transmission start time (Error Passive) and avoid any
 * influence on the bus when in ‚ Bus Off state. The following are the basic rules for FLEXCAN bus
 * state transitions. If the value of Tx_Err_Counter or Rx_Err_Counter increases to be greater than
 * or equal to 128, the FLT_CONF field in the Error and Status Register is updated to reflect Error
 * Passive state. If the FLEXCAN state is Error Passive and either Tx_Err_Counter or Rx_Err_Counter
 * decrements to a value less than or equal to 127. While the other already satisfies this
 * condition, the FLT_CONF field in the Error and Status Register is updated to reflect ErrorError
 * Active state. If the value of Tx_Err_Counter increases to be greater than 255, the FLT_CONF field
 * in the Error and Status Register is updated to reflect Bus Off state and an interrupt may be
 * issued. The value of Tx_Err_Counter is then reset to zero. If FLEXCAN is in Bus Off state then
 * Tx_Err_Counter is cascaded together with another internal counter to count the 128th occurrences
 * of 11 consecutive recessive bits on the bus. Hence, Tx_Err_Counter is reset to zero and counts in
 * a manner where the internal counter counts 11 such bits and then wraps around while incrementing
 * the Tx_Err_Counter. When Tx_Err_Counter reaches the value of 128, the FLT_CONF field in the Error
 * and Status Register is updated to be Error Active and both error counters are reset to zero. At
 * any instance of dominant bit following a stream of less than 11 consecutive recessive bits, the
 * internal counter resets itself to zero without affecting the Tx_Err_Counter value. If during
 * system start-up only one node is operating, then its Tx_Err_Counter increases in each message it
 * is trying to transmit as a result of acknowledge errors (indicated by the ACK_ERR bit in the
 * Error and Status Register). After the transition to Error Passive state, the Tx_Err_Counter does
 * not increment anymore by acknowledge errors. Therefore the device never goes to the Bus Off
 * state. If the Rx_Err_Counter increases to a value greater than 127, it is not incremented further
 * even if more errors are detected while being a receiver. At the next successful message
 * reception, the counter is set to a value between 119 and 127 to resume to Error Active state.
 */
typedef union _hw_flexcan_ecr
{
    reg32_t U;
    struct _hw_flexcan_ecr_bitfields
    {
        unsigned TX_ERR_COUNTER : 8; //!< [7:0] Transmit Error Counter
        unsigned RX_ERR_COUNTER : 8; //!< [15:8] Receive Error Counter
        unsigned RESERVED0 : 16; //!< [31:16] This read-only bitfield is reserved and always has the value zero
    } B;
} hw_flexcan_ecr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_ECR register
 */
//@{
#define HW_FLEXCAN_ECR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x1c)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_ECR(x)           (*(volatile hw_flexcan_ecr_t *) HW_FLEXCAN_ECR_ADDR(x))
#define HW_FLEXCAN_ECR_RD(x)        (HW_FLEXCAN_ECR(x).U)
#define HW_FLEXCAN_ECR_WR(x, v)     (HW_FLEXCAN_ECR(x).U = (v))
#define HW_FLEXCAN_ECR_SET(x, v)    (HW_FLEXCAN_ECR_WR(x, HW_FLEXCAN_ECR_RD(x) |  (v)))
#define HW_FLEXCAN_ECR_CLR(x, v)    (HW_FLEXCAN_ECR_WR(x, HW_FLEXCAN_ECR_RD(x) & ~(v)))
#define HW_FLEXCAN_ECR_TOG(x, v)    (HW_FLEXCAN_ECR_WR(x, HW_FLEXCAN_ECR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_ECR bitfields
 */

/*! @name Register FLEXCAN_ECR, field TX_ERR_COUNTER[7:0] (RW)
 *
 * Transmit Error Counter
 */
//@{
#define BP_FLEXCAN_ECR_TX_ERR_COUNTER      (0)      //!< Bit position for FLEXCAN_ECR_TX_ERR_COUNTER.
#define BM_FLEXCAN_ECR_TX_ERR_COUNTER      (0x000000ff)  //!< Bit mask for FLEXCAN_ECR_TX_ERR_COUNTER.

//! @brief Get value of FLEXCAN_ECR_TX_ERR_COUNTER from a register value.
#define BG_FLEXCAN_ECR_TX_ERR_COUNTER(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ECR_TX_ERR_COUNTER) >> BP_FLEXCAN_ECR_TX_ERR_COUNTER)

//! @brief Format value for bitfield FLEXCAN_ECR_TX_ERR_COUNTER.
#define BF_FLEXCAN_ECR_TX_ERR_COUNTER(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ECR_TX_ERR_COUNTER) & BM_FLEXCAN_ECR_TX_ERR_COUNTER)

#ifndef __LANGUAGE_ASM__
//! @brief Set the TX_ERR_COUNTER field to a new value.
#define BW_FLEXCAN_ECR_TX_ERR_COUNTER(x, v)   (HW_FLEXCAN_ECR_WR(x, (HW_FLEXCAN_ECR_RD(x) & ~BM_FLEXCAN_ECR_TX_ERR_COUNTER) | BF_FLEXCAN_ECR_TX_ERR_COUNTER(v)))
#endif
//@}

/*! @name Register FLEXCAN_ECR, field RX_ERR_COUNTER[15:8] (RW)
 *
 * Receive Error Counter
 */
//@{
#define BP_FLEXCAN_ECR_RX_ERR_COUNTER      (8)      //!< Bit position for FLEXCAN_ECR_RX_ERR_COUNTER.
#define BM_FLEXCAN_ECR_RX_ERR_COUNTER      (0x0000ff00)  //!< Bit mask for FLEXCAN_ECR_RX_ERR_COUNTER.

//! @brief Get value of FLEXCAN_ECR_RX_ERR_COUNTER from a register value.
#define BG_FLEXCAN_ECR_RX_ERR_COUNTER(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ECR_RX_ERR_COUNTER) >> BP_FLEXCAN_ECR_RX_ERR_COUNTER)

//! @brief Format value for bitfield FLEXCAN_ECR_RX_ERR_COUNTER.
#define BF_FLEXCAN_ECR_RX_ERR_COUNTER(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ECR_RX_ERR_COUNTER) & BM_FLEXCAN_ECR_RX_ERR_COUNTER)

#ifndef __LANGUAGE_ASM__
//! @brief Set the RX_ERR_COUNTER field to a new value.
#define BW_FLEXCAN_ECR_RX_ERR_COUNTER(x, v)   (HW_FLEXCAN_ECR_WR(x, (HW_FLEXCAN_ECR_RD(x) & ~BM_FLEXCAN_ECR_RX_ERR_COUNTER) | BF_FLEXCAN_ECR_RX_ERR_COUNTER(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_ESR - Error and Status Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_ESR - Error and Status Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register reflects various error conditions. Four of these error conditions may be programed
 * to signal an interrupt to the ARM. The reported error conditions (bits 15‚ 10) are those that
 * occurred since the last time the ARM read this register. The ARM read action clears (bits
 * 15‚10)(bits . (Bits 9‚ 4) (bits are status bits. Most bits in this register are read only, except
 * TWRN_INT, RWRN_INT, BOFF_INT, WAK_INT and ERR_INT, that are interrupt flags that can be cleared
 * by writing 1 to them (writing 0 has no effect).
 */
typedef union _hw_flexcan_esr
{
    reg32_t U;
    struct _hw_flexcan_esr_bitfields
    {
        unsigned WAK_INT : 1; //!< [0] When FLEXCAN is Stop Mode and a recessive to dominant transition is detected on the CAN bus and if the WAK_MSK bit in the MCR Register is set, an interrupt is generated to the ARM.
        unsigned ERR_INT : 1; //!< [1] This bit indicates that at least one of the Error Bits (bits 15-10) is set.
        unsigned BOFF_INT : 1; //!< [2] This bit is set when FLEXCAN enters Bus Off state.
        unsigned RESERVED0 : 1; //!< [3] Reserved
        unsigned FLT_CONF : 2; //!< [5:4] This 2-bit field indicates the Confinement State of the FLEXCAN block, as shown in below:
        unsigned TXRX : 1; //!< [6] This bit indicates if FLEXCAN is transmitting or receiving a message when the CAN bus is not in IDLE state.
        unsigned IDLE : 1; //!< [7] This bit indicates when CAN bus is in IDLE state.
        unsigned RX_WRN : 1; //!< [8] This bit indicates when repetitive errors are occurring during message reception.
        unsigned TX_WRN : 1; //!< [9] This bit indicates when repetitive errors are occurring during message transmission.
        unsigned STF_ERR : 1; //!< [10] This bit indicates that a Stuffing Error has been detected.
        unsigned FRM_ERR : 1; //!< [11] This bit indicates that a Form Error has been detected by the receiver node, that is, a fixed-form bit field contains at least one illegal bit.
        unsigned CRC_ERR : 1; //!< [12] This bit indicates that a CRC Error has been detected by the receiver node, that is, the calculated CRC is different from the received.
        unsigned ACK_ERR : 1; //!< [13] This bit indicates that an Acknowledge Error has been detected by the transmitter node, that is, a dominant bit has not been detected during the ACK SLOT.
        unsigned BIT0_ERR : 1; //!< [14] This bit indicates when an inconsistency occurs between the transmitted and the received bit in a message.
        unsigned BIT1_ERR : 1; //!< [15] This bit indicates when an inconsistency occurs between the transmitted and the received bit in a message.
        unsigned RWRN_INT : 1; //!< [16] If the WRN_EN bit in MCR is asserted, the RWRN_INT bit is set when the RX_WRN flag transitions from 0 to 1, meaning that the Rx error counters reached 96.
        unsigned TWRN_INT : 1; //!< [17] If the WRN_EN bit in MCR is asserted, the TWRN_INT bit is set when the TX_WRN flag transitions from 0 to 1, meaning that the Tx error counter reached 96.
        unsigned RESERVED1 : 14; //!< [31:18] Reserved
    } B;
} hw_flexcan_esr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_ESR register
 */
//@{
#define HW_FLEXCAN_ESR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x20)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_ESR(x)           (*(volatile hw_flexcan_esr_t *) HW_FLEXCAN_ESR_ADDR(x))
#define HW_FLEXCAN_ESR_RD(x)        (HW_FLEXCAN_ESR(x).U)
#define HW_FLEXCAN_ESR_WR(x, v)     (HW_FLEXCAN_ESR(x).U = (v))
#define HW_FLEXCAN_ESR_SET(x, v)    (HW_FLEXCAN_ESR_WR(x, HW_FLEXCAN_ESR_RD(x) |  (v)))
#define HW_FLEXCAN_ESR_CLR(x, v)    (HW_FLEXCAN_ESR_WR(x, HW_FLEXCAN_ESR_RD(x) & ~(v)))
#define HW_FLEXCAN_ESR_TOG(x, v)    (HW_FLEXCAN_ESR_WR(x, HW_FLEXCAN_ESR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_ESR bitfields
 */

/*! @name Register FLEXCAN_ESR, field WAK_INT[0] (RW)
 *
 * When FLEXCAN is Stop Mode and a recessive to dominant transition is detected on the CAN bus and
 * if the WAK_MSK bit in the MCR Register is set, an interrupt is generated to the ARM. This bit is
 * cleared by writing it to 1. Writing 0 has no effect.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - Indicates a recessive to dominant transition received on the CAN bus when the FLEXCAN is in Stop
 *     Mode
 */
//@{
#define BP_FLEXCAN_ESR_WAK_INT      (0)      //!< Bit position for FLEXCAN_ESR_WAK_INT.
#define BM_FLEXCAN_ESR_WAK_INT      (0x00000001)  //!< Bit mask for FLEXCAN_ESR_WAK_INT.

//! @brief Get value of FLEXCAN_ESR_WAK_INT from a register value.
#define BG_FLEXCAN_ESR_WAK_INT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_WAK_INT) >> BP_FLEXCAN_ESR_WAK_INT)

//! @brief Format value for bitfield FLEXCAN_ESR_WAK_INT.
#define BF_FLEXCAN_ESR_WAK_INT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ESR_WAK_INT) & BM_FLEXCAN_ESR_WAK_INT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the WAK_INT field to a new value.
#define BW_FLEXCAN_ESR_WAK_INT(x, v)   (HW_FLEXCAN_ESR_WR(x, (HW_FLEXCAN_ESR_RD(x) & ~BM_FLEXCAN_ESR_WAK_INT) | BF_FLEXCAN_ESR_WAK_INT(v)))
#endif
//@}

/*! @name Register FLEXCAN_ESR, field ERR_INT[1] (RW)
 *
 * This bit indicates that at least one of the Error Bits (bits 15-10) is set. If the corresponding
 * mask bit in the Control Register (ERR_MSK) is set, an interrupt is generated to the ARM. This bit
 * is cleared by writing it to 1. Writing 0 has no effect.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - Indicates setting of any Error Bit in the Error and Status Register
 */
//@{
#define BP_FLEXCAN_ESR_ERR_INT      (1)      //!< Bit position for FLEXCAN_ESR_ERR_INT.
#define BM_FLEXCAN_ESR_ERR_INT      (0x00000002)  //!< Bit mask for FLEXCAN_ESR_ERR_INT.

//! @brief Get value of FLEXCAN_ESR_ERR_INT from a register value.
#define BG_FLEXCAN_ESR_ERR_INT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_ERR_INT) >> BP_FLEXCAN_ESR_ERR_INT)

//! @brief Format value for bitfield FLEXCAN_ESR_ERR_INT.
#define BF_FLEXCAN_ESR_ERR_INT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ESR_ERR_INT) & BM_FLEXCAN_ESR_ERR_INT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the ERR_INT field to a new value.
#define BW_FLEXCAN_ESR_ERR_INT(x, v)   (HW_FLEXCAN_ESR_WR(x, (HW_FLEXCAN_ESR_RD(x) & ~BM_FLEXCAN_ESR_ERR_INT) | BF_FLEXCAN_ESR_ERR_INT(v)))
#endif
//@}

/*! @name Register FLEXCAN_ESR, field BOFF_INT[2] (RW)
 *
 * This bit is set when FLEXCAN enters Bus Off state. If the corresponding mask bit in the Control
 * Register (BOFF_MSK) is set, an interrupt is generated to the ARM. This bit is cleared by writing
 * it to 1. Writing 0 has no effect.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - FLEXCAN block entered Bus Off state
 */
//@{
#define BP_FLEXCAN_ESR_BOFF_INT      (2)      //!< Bit position for FLEXCAN_ESR_BOFF_INT.
#define BM_FLEXCAN_ESR_BOFF_INT      (0x00000004)  //!< Bit mask for FLEXCAN_ESR_BOFF_INT.

//! @brief Get value of FLEXCAN_ESR_BOFF_INT from a register value.
#define BG_FLEXCAN_ESR_BOFF_INT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_BOFF_INT) >> BP_FLEXCAN_ESR_BOFF_INT)

//! @brief Format value for bitfield FLEXCAN_ESR_BOFF_INT.
#define BF_FLEXCAN_ESR_BOFF_INT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ESR_BOFF_INT) & BM_FLEXCAN_ESR_BOFF_INT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BOFF_INT field to a new value.
#define BW_FLEXCAN_ESR_BOFF_INT(x, v)   (HW_FLEXCAN_ESR_WR(x, (HW_FLEXCAN_ESR_RD(x) & ~BM_FLEXCAN_ESR_BOFF_INT) | BF_FLEXCAN_ESR_BOFF_INT(v)))
#endif
//@}

/*! @name Register FLEXCAN_ESR, field FLT_CONF[5:4] (RO)
 *
 * This 2-bit field indicates the Confinement State of the FLEXCAN block, as shown in below: If the
 * LOM bit in the Control Register is asserted, the FLT_CONF field will indicate Error Passive.
 * Because the Control Register is not affected by soft reset, the FLT_CONF field will not be
 * affected by soft reset if the LOM bit is asserted
 *
 * Values:
 * - 01 - Error Passive
 * - 1x - Bus off
 */
//@{
#define BP_FLEXCAN_ESR_FLT_CONF      (4)      //!< Bit position for FLEXCAN_ESR_FLT_CONF.
#define BM_FLEXCAN_ESR_FLT_CONF      (0x00000030)  //!< Bit mask for FLEXCAN_ESR_FLT_CONF.

//! @brief Get value of FLEXCAN_ESR_FLT_CONF from a register value.
#define BG_FLEXCAN_ESR_FLT_CONF(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_FLT_CONF) >> BP_FLEXCAN_ESR_FLT_CONF)
//@}

/*! @name Register FLEXCAN_ESR, field TXRX[6] (RO)
 *
 * This bit indicates if FLEXCAN is transmitting or receiving a message when the CAN bus is not in
 * IDLE state. This bit has no meaning when IDLE is asserted.
 *
 * Values:
 * - 0 - FLEXCAN is receiving a message (IDLE=0)
 * - 1 - FLEXCAN is transmitting a message (IDLE=0)
 */
//@{
#define BP_FLEXCAN_ESR_TXRX      (6)      //!< Bit position for FLEXCAN_ESR_TXRX.
#define BM_FLEXCAN_ESR_TXRX      (0x00000040)  //!< Bit mask for FLEXCAN_ESR_TXRX.

//! @brief Get value of FLEXCAN_ESR_TXRX from a register value.
#define BG_FLEXCAN_ESR_TXRX(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_TXRX) >> BP_FLEXCAN_ESR_TXRX)
//@}

/*! @name Register FLEXCAN_ESR, field IDLE[7] (RO)
 *
 * This bit indicates when CAN bus is in IDLE state.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - CAN bus is now IDLE
 */
//@{
#define BP_FLEXCAN_ESR_IDLE      (7)      //!< Bit position for FLEXCAN_ESR_IDLE.
#define BM_FLEXCAN_ESR_IDLE      (0x00000080)  //!< Bit mask for FLEXCAN_ESR_IDLE.

//! @brief Get value of FLEXCAN_ESR_IDLE from a register value.
#define BG_FLEXCAN_ESR_IDLE(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_IDLE) >> BP_FLEXCAN_ESR_IDLE)
//@}

/*! @name Register FLEXCAN_ESR, field RX_WRN[8] (RO)
 *
 * This bit indicates when repetitive errors are occurring during message reception.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - Rx_Err_Counter ℜ≥ 96
 */
//@{
#define BP_FLEXCAN_ESR_RX_WRN      (8)      //!< Bit position for FLEXCAN_ESR_RX_WRN.
#define BM_FLEXCAN_ESR_RX_WRN      (0x00000100)  //!< Bit mask for FLEXCAN_ESR_RX_WRN.

//! @brief Get value of FLEXCAN_ESR_RX_WRN from a register value.
#define BG_FLEXCAN_ESR_RX_WRN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_RX_WRN) >> BP_FLEXCAN_ESR_RX_WRN)
//@}

/*! @name Register FLEXCAN_ESR, field TX_WRN[9] (RO)
 *
 * This bit indicates when repetitive errors are occurring during message transmission.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - TX_Err_Counter ℜ≥ 96
 */
//@{
#define BP_FLEXCAN_ESR_TX_WRN      (9)      //!< Bit position for FLEXCAN_ESR_TX_WRN.
#define BM_FLEXCAN_ESR_TX_WRN      (0x00000200)  //!< Bit mask for FLEXCAN_ESR_TX_WRN.

//! @brief Get value of FLEXCAN_ESR_TX_WRN from a register value.
#define BG_FLEXCAN_ESR_TX_WRN(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_TX_WRN) >> BP_FLEXCAN_ESR_TX_WRN)
//@}

/*! @name Register FLEXCAN_ESR, field STF_ERR[10] (RO)
 *
 * This bit indicates that a Stuffing Error has been detected.
 *
 * Values:
 * - 0 - No such occurrence.
 * - 1 - A Stuffing Error occurred since last read of this register.
 */
//@{
#define BP_FLEXCAN_ESR_STF_ERR      (10)      //!< Bit position for FLEXCAN_ESR_STF_ERR.
#define BM_FLEXCAN_ESR_STF_ERR      (0x00000400)  //!< Bit mask for FLEXCAN_ESR_STF_ERR.

//! @brief Get value of FLEXCAN_ESR_STF_ERR from a register value.
#define BG_FLEXCAN_ESR_STF_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_STF_ERR) >> BP_FLEXCAN_ESR_STF_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field FRM_ERR[11] (RO)
 *
 * This bit indicates that a Form Error has been detected by the receiver node, that is, a fixed-
 * form bit field contains at least one illegal bit.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - A Form Error occurred since last read of this register
 */
//@{
#define BP_FLEXCAN_ESR_FRM_ERR      (11)      //!< Bit position for FLEXCAN_ESR_FRM_ERR.
#define BM_FLEXCAN_ESR_FRM_ERR      (0x00000800)  //!< Bit mask for FLEXCAN_ESR_FRM_ERR.

//! @brief Get value of FLEXCAN_ESR_FRM_ERR from a register value.
#define BG_FLEXCAN_ESR_FRM_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_FRM_ERR) >> BP_FLEXCAN_ESR_FRM_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field CRC_ERR[12] (RO)
 *
 * This bit indicates that a CRC Error has been detected by the receiver node, that is, the
 * calculated CRC is different from the received.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - A CRC error occurred since last read of this register.
 */
//@{
#define BP_FLEXCAN_ESR_CRC_ERR      (12)      //!< Bit position for FLEXCAN_ESR_CRC_ERR.
#define BM_FLEXCAN_ESR_CRC_ERR      (0x00001000)  //!< Bit mask for FLEXCAN_ESR_CRC_ERR.

//! @brief Get value of FLEXCAN_ESR_CRC_ERR from a register value.
#define BG_FLEXCAN_ESR_CRC_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_CRC_ERR) >> BP_FLEXCAN_ESR_CRC_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field ACK_ERR[13] (RO)
 *
 * This bit indicates that an Acknowledge Error has been detected by the transmitter node, that is,
 * a dominant bit has not been detected during the ACK SLOT.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - An ACK error occurred since last read of this register
 */
//@{
#define BP_FLEXCAN_ESR_ACK_ERR      (13)      //!< Bit position for FLEXCAN_ESR_ACK_ERR.
#define BM_FLEXCAN_ESR_ACK_ERR      (0x00002000)  //!< Bit mask for FLEXCAN_ESR_ACK_ERR.

//! @brief Get value of FLEXCAN_ESR_ACK_ERR from a register value.
#define BG_FLEXCAN_ESR_ACK_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_ACK_ERR) >> BP_FLEXCAN_ESR_ACK_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field BIT0_ERR[14] (RO)
 *
 * This bit indicates when an inconsistency occurs between the transmitted and the received bit in a
 * message.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - At least one bit sent as dominant is received as recessive
 */
//@{
#define BP_FLEXCAN_ESR_BIT0_ERR      (14)      //!< Bit position for FLEXCAN_ESR_BIT0_ERR.
#define BM_FLEXCAN_ESR_BIT0_ERR      (0x00004000)  //!< Bit mask for FLEXCAN_ESR_BIT0_ERR.

//! @brief Get value of FLEXCAN_ESR_BIT0_ERR from a register value.
#define BG_FLEXCAN_ESR_BIT0_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_BIT0_ERR) >> BP_FLEXCAN_ESR_BIT0_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field BIT1_ERR[15] (RO)
 *
 * This bit indicates when an inconsistency occurs between the transmitted and the received bit in a
 * message. This bit is not set by a transmitter in case of arbitration field or ACK slot, or in
 * case of a node sending a passive error flag that detects dominant bits.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - At least one bit sent as recessive is received as dominant
 */
//@{
#define BP_FLEXCAN_ESR_BIT1_ERR      (15)      //!< Bit position for FLEXCAN_ESR_BIT1_ERR.
#define BM_FLEXCAN_ESR_BIT1_ERR      (0x00008000)  //!< Bit mask for FLEXCAN_ESR_BIT1_ERR.

//! @brief Get value of FLEXCAN_ESR_BIT1_ERR from a register value.
#define BG_FLEXCAN_ESR_BIT1_ERR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_BIT1_ERR) >> BP_FLEXCAN_ESR_BIT1_ERR)
//@}

/*! @name Register FLEXCAN_ESR, field RWRN_INT[16] (RW)
 *
 * If the WRN_EN bit in MCR is asserted, the RWRN_INT bit is set when the RX_WRN flag transitions
 * from 0 to 1, meaning that the Rx error counters reached 96. If the corresponding mask bit in the
 * Control Register (RWRN_MSK) is set, an interrupt is generated to the ARM. This bit is cleared by
 * writing it to 1. Writing 0 has no effect.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - The Rx error counter transition from < 96 to ℜ≥ 96
 */
//@{
#define BP_FLEXCAN_ESR_RWRN_INT      (16)      //!< Bit position for FLEXCAN_ESR_RWRN_INT.
#define BM_FLEXCAN_ESR_RWRN_INT      (0x00010000)  //!< Bit mask for FLEXCAN_ESR_RWRN_INT.

//! @brief Get value of FLEXCAN_ESR_RWRN_INT from a register value.
#define BG_FLEXCAN_ESR_RWRN_INT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_RWRN_INT) >> BP_FLEXCAN_ESR_RWRN_INT)

//! @brief Format value for bitfield FLEXCAN_ESR_RWRN_INT.
#define BF_FLEXCAN_ESR_RWRN_INT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ESR_RWRN_INT) & BM_FLEXCAN_ESR_RWRN_INT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the RWRN_INT field to a new value.
#define BW_FLEXCAN_ESR_RWRN_INT(x, v)   (HW_FLEXCAN_ESR_WR(x, (HW_FLEXCAN_ESR_RD(x) & ~BM_FLEXCAN_ESR_RWRN_INT) | BF_FLEXCAN_ESR_RWRN_INT(v)))
#endif
//@}

/*! @name Register FLEXCAN_ESR, field TWRN_INT[17] (RW)
 *
 * If the WRN_EN bit in MCR is asserted, the TWRN_INT bit is set when the TX_WRN flag transitions
 * from 0 to 1, meaning that the Tx error counter reached 96. If the corresponding mask bit in the
 * Control Register (TWRN_MSK) is set, an interrupt is generated to the ARM. This bit is cleared by
 * writing it to 1. Writing 0 has no effect.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - The Tx error counter transition from < 96 to ℜ≥ 96
 */
//@{
#define BP_FLEXCAN_ESR_TWRN_INT      (17)      //!< Bit position for FLEXCAN_ESR_TWRN_INT.
#define BM_FLEXCAN_ESR_TWRN_INT      (0x00020000)  //!< Bit mask for FLEXCAN_ESR_TWRN_INT.

//! @brief Get value of FLEXCAN_ESR_TWRN_INT from a register value.
#define BG_FLEXCAN_ESR_TWRN_INT(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_ESR_TWRN_INT) >> BP_FLEXCAN_ESR_TWRN_INT)

//! @brief Format value for bitfield FLEXCAN_ESR_TWRN_INT.
#define BF_FLEXCAN_ESR_TWRN_INT(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_ESR_TWRN_INT) & BM_FLEXCAN_ESR_TWRN_INT)

#ifndef __LANGUAGE_ASM__
//! @brief Set the TWRN_INT field to a new value.
#define BW_FLEXCAN_ESR_TWRN_INT(x, v)   (HW_FLEXCAN_ESR_WR(x, (HW_FLEXCAN_ESR_RD(x) & ~BM_FLEXCAN_ESR_TWRN_INT) | BF_FLEXCAN_ESR_TWRN_INT(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_IMASK2 - Interrupt Masks 2 Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_IMASK2 - Interrupt Masks 2 Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register allows any number of a range of 32 Message Buffer Interrupts to be enabled or
 * disabled. It contains one interrupt mask bit per buffer enabling the ARM to determine which
 * buffer generates an interrupt after a successful transmission or reception (that is, when the
 * corresponding IFLAG2 bit is set). Setting or clearing a bit in the IMASK2 Register can assert or
 * negate an interrupt request if the corresponding IFLAG2 bit is set.
 */
typedef union _hw_flexcan_imask2
{
    reg32_t U;
    struct _hw_flexcan_imask2_bitfields
    {
        unsigned BUF63M : 32; //!< [31:0] Each bit enables or disables the respective FLEXCAN Message Buffer (MB32 to MB63) Interrupt.
    } B;
} hw_flexcan_imask2_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_IMASK2 register
 */
//@{
#define HW_FLEXCAN_IMASK2_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x24)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_IMASK2(x)           (*(volatile hw_flexcan_imask2_t *) HW_FLEXCAN_IMASK2_ADDR(x))
#define HW_FLEXCAN_IMASK2_RD(x)        (HW_FLEXCAN_IMASK2(x).U)
#define HW_FLEXCAN_IMASK2_WR(x, v)     (HW_FLEXCAN_IMASK2(x).U = (v))
#define HW_FLEXCAN_IMASK2_SET(x, v)    (HW_FLEXCAN_IMASK2_WR(x, HW_FLEXCAN_IMASK2_RD(x) |  (v)))
#define HW_FLEXCAN_IMASK2_CLR(x, v)    (HW_FLEXCAN_IMASK2_WR(x, HW_FLEXCAN_IMASK2_RD(x) & ~(v)))
#define HW_FLEXCAN_IMASK2_TOG(x, v)    (HW_FLEXCAN_IMASK2_WR(x, HW_FLEXCAN_IMASK2_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_IMASK2 bitfields
 */

/*! @name Register FLEXCAN_IMASK2, field BUF63M[31:0] (RW)
 *
 * Each bit enables or disables the respective FLEXCAN Message Buffer (MB32 to MB63) Interrupt.
 *
 * Values:
 * - 0 - The corresponding buffer Interrupt is disabled
 * - 1 - The corresponding buffer Interrupt is enabled
 */
//@{
#define BP_FLEXCAN_IMASK2_BUF63M      (0)      //!< Bit position for FLEXCAN_IMASK2_BUF63M.
#define BM_FLEXCAN_IMASK2_BUF63M      (0xffffffff)  //!< Bit mask for FLEXCAN_IMASK2_BUF63M.

//! @brief Get value of FLEXCAN_IMASK2_BUF63M from a register value.
#define BG_FLEXCAN_IMASK2_BUF63M(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IMASK2_BUF63M) >> BP_FLEXCAN_IMASK2_BUF63M)

//! @brief Format value for bitfield FLEXCAN_IMASK2_BUF63M.
#define BF_FLEXCAN_IMASK2_BUF63M(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IMASK2_BUF63M) & BM_FLEXCAN_IMASK2_BUF63M)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF63M field to a new value.
#define BW_FLEXCAN_IMASK2_BUF63M(x, v)   (HW_FLEXCAN_IMASK2_WR(x, (HW_FLEXCAN_IMASK2_RD(x) & ~BM_FLEXCAN_IMASK2_BUF63M) | BF_FLEXCAN_IMASK2_BUF63M(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_IMASK1 - Interrupt Masks 1 Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_IMASK1 - Interrupt Masks 1 Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register allows the enabling or disabling of any number of a range of 32 Message Buffer
 * Interrupts. It contains one interrupt mask bit per buffer enabling the ARM to determine which
 * buffer generates an interrupt after a successful transmission or reception (that is, when the
 * corresponding IFLAG1 bit is set). Setting or clearing a bit in the IMASK1 Register can assert or
 * negate an interrupt request if the corresponding IFLAG1 bit is set.
 */
typedef union _hw_flexcan_imask1
{
    reg32_t U;
    struct _hw_flexcan_imask1_bitfields
    {
        unsigned BUF31M_BUF0M : 32; //!< [31:0] Each bit enables or disables the respective FLEXCAN Message Buffer (MB0 to MB31) Interrupt.
    } B;
} hw_flexcan_imask1_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_IMASK1 register
 */
//@{
#define HW_FLEXCAN_IMASK1_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x28)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_IMASK1(x)           (*(volatile hw_flexcan_imask1_t *) HW_FLEXCAN_IMASK1_ADDR(x))
#define HW_FLEXCAN_IMASK1_RD(x)        (HW_FLEXCAN_IMASK1(x).U)
#define HW_FLEXCAN_IMASK1_WR(x, v)     (HW_FLEXCAN_IMASK1(x).U = (v))
#define HW_FLEXCAN_IMASK1_SET(x, v)    (HW_FLEXCAN_IMASK1_WR(x, HW_FLEXCAN_IMASK1_RD(x) |  (v)))
#define HW_FLEXCAN_IMASK1_CLR(x, v)    (HW_FLEXCAN_IMASK1_WR(x, HW_FLEXCAN_IMASK1_RD(x) & ~(v)))
#define HW_FLEXCAN_IMASK1_TOG(x, v)    (HW_FLEXCAN_IMASK1_WR(x, HW_FLEXCAN_IMASK1_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_IMASK1 bitfields
 */

/*! @name Register FLEXCAN_IMASK1, field BUF31M_BUF0M[31:0] (RW)
 *
 * Each bit enables or disables the respective FLEXCAN Message Buffer (MB0 to MB31) Interrupt.
 *
 * Values:
 * - 0 - The corresponding buffer Interrupt is disabled
 * - 1 - The corresponding buffer Interrupt is enabled
 */
//@{
#define BP_FLEXCAN_IMASK1_BUF31M_BUF0M      (0)      //!< Bit position for FLEXCAN_IMASK1_BUF31M_BUF0M.
#define BM_FLEXCAN_IMASK1_BUF31M_BUF0M      (0xffffffff)  //!< Bit mask for FLEXCAN_IMASK1_BUF31M_BUF0M.

//! @brief Get value of FLEXCAN_IMASK1_BUF31M_BUF0M from a register value.
#define BG_FLEXCAN_IMASK1_BUF31M_BUF0M(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IMASK1_BUF31M_BUF0M) >> BP_FLEXCAN_IMASK1_BUF31M_BUF0M)

//! @brief Format value for bitfield FLEXCAN_IMASK1_BUF31M_BUF0M.
#define BF_FLEXCAN_IMASK1_BUF31M_BUF0M(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IMASK1_BUF31M_BUF0M) & BM_FLEXCAN_IMASK1_BUF31M_BUF0M)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF31M_BUF0M field to a new value.
#define BW_FLEXCAN_IMASK1_BUF31M_BUF0M(x, v)   (HW_FLEXCAN_IMASK1_WR(x, (HW_FLEXCAN_IMASK1_RD(x) & ~BM_FLEXCAN_IMASK1_BUF31M_BUF0M) | BF_FLEXCAN_IMASK1_BUF31M_BUF0M(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_IFLAG2 - Interrupt Flags 2 Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_IFLAG2 - Interrupt Flags 2 Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register defines the flags for 32 Message Buffer interrupts. It contains one interrupt flag
 * bit per buffer. Each successful transmission or reception sets the corresponding IFLAG2 bit. If
 * the corresponding IMASK2 bit is set, an interrupt will be generated. The interrupt flag must be
 * cleared by writing it to 1. Writing 0 has no effect. When the AEN bit in the MCR is set (Abort
 * enabled), while the IFLAG2 bit is set for a message buffer configured as Tx, the writing access
 * done by ARM into the corresponding message buffer will be blocked.
 */
typedef union _hw_flexcan_iflag2
{
    reg32_t U;
    struct _hw_flexcan_iflag2_bitfields
    {
        unsigned BUF63I_BUF32I : 32; //!< [31:0] Each bit flags the respective FLEXCAN Message Buffer (MB32 to MB63) interrupt.
    } B;
} hw_flexcan_iflag2_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_IFLAG2 register
 */
//@{
#define HW_FLEXCAN_IFLAG2_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x2c)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_IFLAG2(x)           (*(volatile hw_flexcan_iflag2_t *) HW_FLEXCAN_IFLAG2_ADDR(x))
#define HW_FLEXCAN_IFLAG2_RD(x)        (HW_FLEXCAN_IFLAG2(x).U)
#define HW_FLEXCAN_IFLAG2_WR(x, v)     (HW_FLEXCAN_IFLAG2(x).U = (v))
#define HW_FLEXCAN_IFLAG2_SET(x, v)    (HW_FLEXCAN_IFLAG2_WR(x, HW_FLEXCAN_IFLAG2_RD(x) |  (v)))
#define HW_FLEXCAN_IFLAG2_CLR(x, v)    (HW_FLEXCAN_IFLAG2_WR(x, HW_FLEXCAN_IFLAG2_RD(x) & ~(v)))
#define HW_FLEXCAN_IFLAG2_TOG(x, v)    (HW_FLEXCAN_IFLAG2_WR(x, HW_FLEXCAN_IFLAG2_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_IFLAG2 bitfields
 */

/*! @name Register FLEXCAN_IFLAG2, field BUF63I_BUF32I[31:0] (RW)
 *
 * Each bit flags the respective FLEXCAN Message Buffer (MB32 to MB63) interrupt.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - The corresponding buffer has successfully completed transmission or reception
 */
//@{
#define BP_FLEXCAN_IFLAG2_BUF63I_BUF32I      (0)      //!< Bit position for FLEXCAN_IFLAG2_BUF63I_BUF32I.
#define BM_FLEXCAN_IFLAG2_BUF63I_BUF32I      (0xffffffff)  //!< Bit mask for FLEXCAN_IFLAG2_BUF63I_BUF32I.

//! @brief Get value of FLEXCAN_IFLAG2_BUF63I_BUF32I from a register value.
#define BG_FLEXCAN_IFLAG2_BUF63I_BUF32I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG2_BUF63I_BUF32I) >> BP_FLEXCAN_IFLAG2_BUF63I_BUF32I)

//! @brief Format value for bitfield FLEXCAN_IFLAG2_BUF63I_BUF32I.
#define BF_FLEXCAN_IFLAG2_BUF63I_BUF32I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG2_BUF63I_BUF32I) & BM_FLEXCAN_IFLAG2_BUF63I_BUF32I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF63I_BUF32I field to a new value.
#define BW_FLEXCAN_IFLAG2_BUF63I_BUF32I(x, v)   (HW_FLEXCAN_IFLAG2_WR(x, (HW_FLEXCAN_IFLAG2_RD(x) & ~BM_FLEXCAN_IFLAG2_BUF63I_BUF32I) | BF_FLEXCAN_IFLAG2_BUF63I_BUF32I(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_IFLAG1 - Interrupt Flags 1 Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_IFLAG1 - Interrupt Flags 1 Register (RW)
 *
 * Reset value: 0x00000000
 *
 * This register defines the flags for 32 Message Buffer interrupts and FIFO interrupts. It contains
 * one interrupt flag bit per buffer. Each successful transmission or reception sets the
 * corresponding IFLAG1 bit . If the corresponding IMASK1 bit is set, an interrupt will be
 * generated. The Interrupt flag must be cleared by writing it to 1. Writing 0 has no effect. When
 * the AEN bit in the MCR is set (Abort enabled), while the IFLAG1 bit is set for a message buffer
 * configured as Tx, the writing access done by ARM into the corresponding message buffer will be
 * blocked. When the FEN bit in the MCR is set (FIFO enabled), the function of the 8 least
 * significant interrupt flags (BUF7I - BUF0I) is changed to support the FIFO operation. BUF7I,
 * BUF6I and BUF5I indicate operating conditions of the FIFO, while BUF4I to BUF0I are not used.
 */
typedef union _hw_flexcan_iflag1
{
    reg32_t U;
    struct _hw_flexcan_iflag1_bitfields
    {
        unsigned BUF4I_BUF0I : 5; //!< [4:0] If the FIFO is not enabled, these bits flag the interrupts for MB0 to MB4.
        unsigned BUF5I : 1; //!< [5] If the FIFO is not enabled, this bit flags the interrupt for MB5.
        unsigned BUF6I : 1; //!< [6] If the FIFO is not enabled, this bit flags the interrupt for MB6.
        unsigned BUF7I : 1; //!< [7] If the FIFO is not enabled, this bit flags the interrupt for MB7.
        unsigned BUF31I_BUF8I : 24; //!< [31:8] Each bit flags the respective FLEXCAN Message Buffer (MB8 to MB31) interrupt.
    } B;
} hw_flexcan_iflag1_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_IFLAG1 register
 */
//@{
#define HW_FLEXCAN_IFLAG1_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x30)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_IFLAG1(x)           (*(volatile hw_flexcan_iflag1_t *) HW_FLEXCAN_IFLAG1_ADDR(x))
#define HW_FLEXCAN_IFLAG1_RD(x)        (HW_FLEXCAN_IFLAG1(x).U)
#define HW_FLEXCAN_IFLAG1_WR(x, v)     (HW_FLEXCAN_IFLAG1(x).U = (v))
#define HW_FLEXCAN_IFLAG1_SET(x, v)    (HW_FLEXCAN_IFLAG1_WR(x, HW_FLEXCAN_IFLAG1_RD(x) |  (v)))
#define HW_FLEXCAN_IFLAG1_CLR(x, v)    (HW_FLEXCAN_IFLAG1_WR(x, HW_FLEXCAN_IFLAG1_RD(x) & ~(v)))
#define HW_FLEXCAN_IFLAG1_TOG(x, v)    (HW_FLEXCAN_IFLAG1_WR(x, HW_FLEXCAN_IFLAG1_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_IFLAG1 bitfields
 */

/*! @name Register FLEXCAN_IFLAG1, field BUF4I_BUF0I[4:0] (RW)
 *
 * If the FIFO is not enabled, these bits flag the interrupts for MB0 to MB4. If the FIFO is
 * enabled, these flags are not used and must be considered as reserved locations.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - Corresponding message buffer completed transmission/reception
 */
//@{
#define BP_FLEXCAN_IFLAG1_BUF4I_BUF0I      (0)      //!< Bit position for FLEXCAN_IFLAG1_BUF4I_BUF0I.
#define BM_FLEXCAN_IFLAG1_BUF4I_BUF0I      (0x0000001f)  //!< Bit mask for FLEXCAN_IFLAG1_BUF4I_BUF0I.

//! @brief Get value of FLEXCAN_IFLAG1_BUF4I_BUF0I from a register value.
#define BG_FLEXCAN_IFLAG1_BUF4I_BUF0I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG1_BUF4I_BUF0I) >> BP_FLEXCAN_IFLAG1_BUF4I_BUF0I)

//! @brief Format value for bitfield FLEXCAN_IFLAG1_BUF4I_BUF0I.
#define BF_FLEXCAN_IFLAG1_BUF4I_BUF0I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG1_BUF4I_BUF0I) & BM_FLEXCAN_IFLAG1_BUF4I_BUF0I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF4I_BUF0I field to a new value.
#define BW_FLEXCAN_IFLAG1_BUF4I_BUF0I(x, v)   (HW_FLEXCAN_IFLAG1_WR(x, (HW_FLEXCAN_IFLAG1_RD(x) & ~BM_FLEXCAN_IFLAG1_BUF4I_BUF0I) | BF_FLEXCAN_IFLAG1_BUF4I_BUF0I(v)))
#endif
//@}

/*! @name Register FLEXCAN_IFLAG1, field BUF5I[5] (RW)
 *
 * If the FIFO is not enabled, this bit flags the interrupt for MB5. If the FIFO is enabled, this
 * flag indicates that at least one frame is available to be read from the FIFO.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - MB5 completed transmission/reception or frames available in the FIFO
 */
//@{
#define BP_FLEXCAN_IFLAG1_BUF5I      (5)      //!< Bit position for FLEXCAN_IFLAG1_BUF5I.
#define BM_FLEXCAN_IFLAG1_BUF5I      (0x00000020)  //!< Bit mask for FLEXCAN_IFLAG1_BUF5I.

//! @brief Get value of FLEXCAN_IFLAG1_BUF5I from a register value.
#define BG_FLEXCAN_IFLAG1_BUF5I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG1_BUF5I) >> BP_FLEXCAN_IFLAG1_BUF5I)

//! @brief Format value for bitfield FLEXCAN_IFLAG1_BUF5I.
#define BF_FLEXCAN_IFLAG1_BUF5I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG1_BUF5I) & BM_FLEXCAN_IFLAG1_BUF5I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF5I field to a new value.
#define BW_FLEXCAN_IFLAG1_BUF5I(x, v)   (HW_FLEXCAN_IFLAG1_WR(x, (HW_FLEXCAN_IFLAG1_RD(x) & ~BM_FLEXCAN_IFLAG1_BUF5I) | BF_FLEXCAN_IFLAG1_BUF5I(v)))
#endif
//@}

/*! @name Register FLEXCAN_IFLAG1, field BUF6I[6] (RW)
 *
 * If the FIFO is not enabled, this bit flags the interrupt for MB6. If the FIFO is enabled, this
 * flag indicates that 4 out of 6 buffers of the FIFO are already occupied (FIFO almost full).
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - MB6 completed transmission/reception or FIFO almost full
 */
//@{
#define BP_FLEXCAN_IFLAG1_BUF6I      (6)      //!< Bit position for FLEXCAN_IFLAG1_BUF6I.
#define BM_FLEXCAN_IFLAG1_BUF6I      (0x00000040)  //!< Bit mask for FLEXCAN_IFLAG1_BUF6I.

//! @brief Get value of FLEXCAN_IFLAG1_BUF6I from a register value.
#define BG_FLEXCAN_IFLAG1_BUF6I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG1_BUF6I) >> BP_FLEXCAN_IFLAG1_BUF6I)

//! @brief Format value for bitfield FLEXCAN_IFLAG1_BUF6I.
#define BF_FLEXCAN_IFLAG1_BUF6I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG1_BUF6I) & BM_FLEXCAN_IFLAG1_BUF6I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF6I field to a new value.
#define BW_FLEXCAN_IFLAG1_BUF6I(x, v)   (HW_FLEXCAN_IFLAG1_WR(x, (HW_FLEXCAN_IFLAG1_RD(x) & ~BM_FLEXCAN_IFLAG1_BUF6I) | BF_FLEXCAN_IFLAG1_BUF6I(v)))
#endif
//@}

/*! @name Register FLEXCAN_IFLAG1, field BUF7I[7] (RW)
 *
 * If the FIFO is not enabled, this bit flags the interrupt for MB7. If the FIFO is enabled, this
 * flag indicates an overflow condition in the FIFO (frame lost because FIFO is full).
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - MB7 completed transmission/reception or FIFO overflow
 */
//@{
#define BP_FLEXCAN_IFLAG1_BUF7I      (7)      //!< Bit position for FLEXCAN_IFLAG1_BUF7I.
#define BM_FLEXCAN_IFLAG1_BUF7I      (0x00000080)  //!< Bit mask for FLEXCAN_IFLAG1_BUF7I.

//! @brief Get value of FLEXCAN_IFLAG1_BUF7I from a register value.
#define BG_FLEXCAN_IFLAG1_BUF7I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG1_BUF7I) >> BP_FLEXCAN_IFLAG1_BUF7I)

//! @brief Format value for bitfield FLEXCAN_IFLAG1_BUF7I.
#define BF_FLEXCAN_IFLAG1_BUF7I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG1_BUF7I) & BM_FLEXCAN_IFLAG1_BUF7I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF7I field to a new value.
#define BW_FLEXCAN_IFLAG1_BUF7I(x, v)   (HW_FLEXCAN_IFLAG1_WR(x, (HW_FLEXCAN_IFLAG1_RD(x) & ~BM_FLEXCAN_IFLAG1_BUF7I) | BF_FLEXCAN_IFLAG1_BUF7I(v)))
#endif
//@}

/*! @name Register FLEXCAN_IFLAG1, field BUF31I_BUF8I[31:8] (RW)
 *
 * Each bit flags the respective FLEXCAN Message Buffer (MB8 to MB31) interrupt.
 *
 * Values:
 * - 0 - No such occurrence
 * - 1 - The corresponding message buffer has successfully completed transmission or reception
 */
//@{
#define BP_FLEXCAN_IFLAG1_BUF31I_BUF8I      (8)      //!< Bit position for FLEXCAN_IFLAG1_BUF31I_BUF8I.
#define BM_FLEXCAN_IFLAG1_BUF31I_BUF8I      (0xffffff00)  //!< Bit mask for FLEXCAN_IFLAG1_BUF31I_BUF8I.

//! @brief Get value of FLEXCAN_IFLAG1_BUF31I_BUF8I from a register value.
#define BG_FLEXCAN_IFLAG1_BUF31I_BUF8I(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_IFLAG1_BUF31I_BUF8I) >> BP_FLEXCAN_IFLAG1_BUF31I_BUF8I)

//! @brief Format value for bitfield FLEXCAN_IFLAG1_BUF31I_BUF8I.
#define BF_FLEXCAN_IFLAG1_BUF31I_BUF8I(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_IFLAG1_BUF31I_BUF8I) & BM_FLEXCAN_IFLAG1_BUF31I_BUF8I)

#ifndef __LANGUAGE_ASM__
//! @brief Set the BUF31I_BUF8I field to a new value.
#define BW_FLEXCAN_IFLAG1_BUF31I_BUF8I(x, v)   (HW_FLEXCAN_IFLAG1_WR(x, (HW_FLEXCAN_IFLAG1_RD(x) & ~BM_FLEXCAN_IFLAG1_BUF31I_BUF8I) | BF_FLEXCAN_IFLAG1_BUF31I_BUF8I(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_GFWR - Glitch Filter Width Register
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_GFWR - Glitch Filter Width Register (RW)
 *
 * Reset value: 0x0000007f
 *
 * The Glitch Filter just takes effects when FLEXCAN enters the STOP mode.
 */
typedef union _hw_flexcan_gfwr
{
    reg32_t U;
    struct _hw_flexcan_gfwr_bitfields
    {
        unsigned GFWR : 8; //!< [7:0] It determines the Glitch Filter Width.
        unsigned RESERVED0 : 24; //!< [31:8] Reserved
    } B;
} hw_flexcan_gfwr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_GFWR register
 */
//@{
#define HW_FLEXCAN_GFWR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x34)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_GFWR(x)           (*(volatile hw_flexcan_gfwr_t *) HW_FLEXCAN_GFWR_ADDR(x))
#define HW_FLEXCAN_GFWR_RD(x)        (HW_FLEXCAN_GFWR(x).U)
#define HW_FLEXCAN_GFWR_WR(x, v)     (HW_FLEXCAN_GFWR(x).U = (v))
#define HW_FLEXCAN_GFWR_SET(x, v)    (HW_FLEXCAN_GFWR_WR(x, HW_FLEXCAN_GFWR_RD(x) |  (v)))
#define HW_FLEXCAN_GFWR_CLR(x, v)    (HW_FLEXCAN_GFWR_WR(x, HW_FLEXCAN_GFWR_RD(x) & ~(v)))
#define HW_FLEXCAN_GFWR_TOG(x, v)    (HW_FLEXCAN_GFWR_WR(x, HW_FLEXCAN_GFWR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_GFWR bitfields
 */

/*! @name Register FLEXCAN_GFWR, field GFWR[7:0] (RW)
 *
 * It determines the Glitch Filter Width. The width will be divided from Oscillator clock by GFWR
 * values. By default, it is 5.33us when the oscillator is 24MHz.
 */
//@{
#define BP_FLEXCAN_GFWR_GFWR      (0)      //!< Bit position for FLEXCAN_GFWR_GFWR.
#define BM_FLEXCAN_GFWR_GFWR      (0x000000ff)  //!< Bit mask for FLEXCAN_GFWR_GFWR.

//! @brief Get value of FLEXCAN_GFWR_GFWR from a register value.
#define BG_FLEXCAN_GFWR_GFWR(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_GFWR_GFWR) >> BP_FLEXCAN_GFWR_GFWR)

//! @brief Format value for bitfield FLEXCAN_GFWR_GFWR.
#define BF_FLEXCAN_GFWR_GFWR(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_GFWR_GFWR) & BM_FLEXCAN_GFWR_GFWR)

#ifndef __LANGUAGE_ASM__
//! @brief Set the GFWR field to a new value.
#define BW_FLEXCAN_GFWR_GFWR(x, v)   (HW_FLEXCAN_GFWR_WR(x, (HW_FLEXCAN_GFWR_RD(x) & ~BM_FLEXCAN_GFWR_GFWR) | BF_FLEXCAN_GFWR_GFWR(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_RX0IMR - Rx Individual Mask Registers
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_RX0IMR - Rx Individual Mask Registers (RW)
 *
 * Reset value: 0x00000000
 *
 * These registers are used as acceptance masks for ID filtering in Rx message buffers and the FIFO.
 * If the FIFO is not enabled, one mask register is provided for each available Message Buffer,
 * providing ID masking capability on a per Message Buffer basis. When the FIFO is enabled (FEN bit
 * in MCR is set), the first 8 Mask Registers apply to the 8 elements of the FIFO filter table (on a
 * one-to-one correspondence) while the rest of the registers apply to the regular message buffers
 * starting from MB8. The Individual Rx Mask Registers are implemented in RAM so they are not
 * affected by reset and must be explicitly initialized prior to any reception. Furthermore, they
 * can only be accessed by the ARM while the block is in Freeze Mode. Out of Freeze Mode, write
 * accesses are blocked and read accesses will return all zeros. Furthermore, if the BCC bit in the
 * MCR Register is negated, any read or write operation to these registers results in access error.
 */
typedef union _hw_flexcan_rx0imr
{
    reg32_t U;
    struct _hw_flexcan_rx0imr_bitfields
    {
        unsigned MI31_MI0 : 32; //!< [31:0] For normal Rx message buffers, the mask bits affect the ID filter programmed on the message buffer.
    } B;
} hw_flexcan_rx0imr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_RX0IMR register
 */
//@{
#define HW_FLEXCAN_RX0IMR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x880)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_RX0IMR(x)           (*(volatile hw_flexcan_rx0imr_t *) HW_FLEXCAN_RX0IMR_ADDR(x))
#define HW_FLEXCAN_RX0IMR_RD(x)        (HW_FLEXCAN_RX0IMR(x).U)
#define HW_FLEXCAN_RX0IMR_WR(x, v)     (HW_FLEXCAN_RX0IMR(x).U = (v))
#define HW_FLEXCAN_RX0IMR_SET(x, v)    (HW_FLEXCAN_RX0IMR_WR(x, HW_FLEXCAN_RX0IMR_RD(x) |  (v)))
#define HW_FLEXCAN_RX0IMR_CLR(x, v)    (HW_FLEXCAN_RX0IMR_WR(x, HW_FLEXCAN_RX0IMR_RD(x) & ~(v)))
#define HW_FLEXCAN_RX0IMR_TOG(x, v)    (HW_FLEXCAN_RX0IMR_WR(x, HW_FLEXCAN_RX0IMR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_RX0IMR bitfields
 */

/*! @name Register FLEXCAN_RX0IMR, field MI31_MI0[31:0] (RW)
 *
 * For normal Rx message buffers, the mask bits affect the ID filter programmed on the message
 * buffer. For the Rx FIFO, the mask bits affect all bits programmed in the filter table (ID, IDE,
 * RTR).
 *
 * Values:
 * - 0 - the corresponding bit in the filter is dont care
 * - 1 - The corresponding bit in the filter is checked against the one received
 */
//@{
#define BP_FLEXCAN_RX0IMR_MI31_MI0      (0)      //!< Bit position for FLEXCAN_RX0IMR_MI31_MI0.
#define BM_FLEXCAN_RX0IMR_MI31_MI0      (0xffffffff)  //!< Bit mask for FLEXCAN_RX0IMR_MI31_MI0.

//! @brief Get value of FLEXCAN_RX0IMR_MI31_MI0 from a register value.
#define BG_FLEXCAN_RX0IMR_MI31_MI0(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_RX0IMR_MI31_MI0) >> BP_FLEXCAN_RX0IMR_MI31_MI0)

//! @brief Format value for bitfield FLEXCAN_RX0IMR_MI31_MI0.
#define BF_FLEXCAN_RX0IMR_MI31_MI0(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_RX0IMR_MI31_MI0) & BM_FLEXCAN_RX0IMR_MI31_MI0)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MI31_MI0 field to a new value.
#define BW_FLEXCAN_RX0IMR_MI31_MI0(x, v)   (HW_FLEXCAN_RX0IMR_WR(x, (HW_FLEXCAN_RX0IMR_RD(x) & ~BM_FLEXCAN_RX0IMR_MI31_MI0) | BF_FLEXCAN_RX0IMR_MI31_MI0(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// HW_FLEXCAN_RX63IMR - Rx Individual Mask Registers
//-------------------------------------------------------------------------------------------

#ifndef __LANGUAGE_ASM__
/*!
 * @brief HW_FLEXCAN_RX63IMR - Rx Individual Mask Registers (RW)
 *
 * Reset value: 0x00000000
 *
 * These registers are used as acceptance masks for ID filtering in Rx message buffers and the FIFO.
 * If the FIFO is not enabled, one mask register is provided for each available Message Buffer,
 * providing ID masking capability on a per Message Buffer basis. When the FIFO is enabled (FEN bit
 * in MCR is set), the first 8 Mask Registers apply to the 8 elements of the FIFO filter table (on a
 * one-to-one correspondence) while the rest of the registers apply to the regular message buffers
 * starting from MB8. The Individual Rx Mask Registers are implemented in RAM so they are not
 * affected by reset and must be explicitly initialized prior to any reception. Furthermore, they
 * can only be accessed by the ARM while the block is in Freeze Mode. Out of Freeze Mode, write
 * accesses are blocked and read accesses will return all zeros. Furthermore, if the BCC bit in the
 * MCR Register is negated, any read or write operation to these registers results in access error.
 */
typedef union _hw_flexcan_rx63imr
{
    reg32_t U;
    struct _hw_flexcan_rx63imr_bitfields
    {
        unsigned MI31_MI0 : 32; //!< [31:0] For normal Rx message buffers, the mask bits affect the ID filter programmed on the message buffer.
    } B;
} hw_flexcan_rx63imr_t;
#endif

/*!
 * @name Constants and macros for entire FLEXCAN_RX63IMR register
 */
//@{
#define HW_FLEXCAN_RX63IMR_ADDR(x)      (REGS_FLEXCAN_BASE(x) + 0x97c)

#ifndef __LANGUAGE_ASM__
#define HW_FLEXCAN_RX63IMR(x)           (*(volatile hw_flexcan_rx63imr_t *) HW_FLEXCAN_RX63IMR_ADDR(x))
#define HW_FLEXCAN_RX63IMR_RD(x)        (HW_FLEXCAN_RX63IMR(x).U)
#define HW_FLEXCAN_RX63IMR_WR(x, v)     (HW_FLEXCAN_RX63IMR(x).U = (v))
#define HW_FLEXCAN_RX63IMR_SET(x, v)    (HW_FLEXCAN_RX63IMR_WR(x, HW_FLEXCAN_RX63IMR_RD(x) |  (v)))
#define HW_FLEXCAN_RX63IMR_CLR(x, v)    (HW_FLEXCAN_RX63IMR_WR(x, HW_FLEXCAN_RX63IMR_RD(x) & ~(v)))
#define HW_FLEXCAN_RX63IMR_TOG(x, v)    (HW_FLEXCAN_RX63IMR_WR(x, HW_FLEXCAN_RX63IMR_RD(x) ^  (v)))
#endif
//@}

/*
 * constants & macros for individual FLEXCAN_RX63IMR bitfields
 */

/*! @name Register FLEXCAN_RX63IMR, field MI31_MI0[31:0] (RW)
 *
 * For normal Rx message buffers, the mask bits affect the ID filter programmed on the message
 * buffer. For the Rx FIFO, the mask bits affect all bits programmed in the filter table (ID, IDE,
 * RTR).
 *
 * Values:
 * - 0 - the corresponding bit in the filter is dont care
 * - 1 - The corresponding bit in the filter is checked against the one received
 */
//@{
#define BP_FLEXCAN_RX63IMR_MI31_MI0      (0)      //!< Bit position for FLEXCAN_RX63IMR_MI31_MI0.
#define BM_FLEXCAN_RX63IMR_MI31_MI0      (0xffffffff)  //!< Bit mask for FLEXCAN_RX63IMR_MI31_MI0.

//! @brief Get value of FLEXCAN_RX63IMR_MI31_MI0 from a register value.
#define BG_FLEXCAN_RX63IMR_MI31_MI0(r)   ((__REG_VALUE_TYPE((r), reg32_t) & BM_FLEXCAN_RX63IMR_MI31_MI0) >> BP_FLEXCAN_RX63IMR_MI31_MI0)

//! @brief Format value for bitfield FLEXCAN_RX63IMR_MI31_MI0.
#define BF_FLEXCAN_RX63IMR_MI31_MI0(v)   ((__REG_VALUE_TYPE((v), reg32_t) << BP_FLEXCAN_RX63IMR_MI31_MI0) & BM_FLEXCAN_RX63IMR_MI31_MI0)

#ifndef __LANGUAGE_ASM__
//! @brief Set the MI31_MI0 field to a new value.
#define BW_FLEXCAN_RX63IMR_MI31_MI0(x, v)   (HW_FLEXCAN_RX63IMR_WR(x, (HW_FLEXCAN_RX63IMR_RD(x) & ~BM_FLEXCAN_RX63IMR_MI31_MI0) | BF_FLEXCAN_RX63IMR_MI31_MI0(v)))
#endif
//@}

//-------------------------------------------------------------------------------------------
// hw_flexcan_t - module struct
//-------------------------------------------------------------------------------------------
/*!
 * @brief All FLEXCAN module registers.
 */
#ifndef __LANGUAGE_ASM__
#pragma pack(1)
typedef struct _hw_flexcan
{
    volatile hw_flexcan_mcr_t MCR; //!< Module Configuration Register
    volatile hw_flexcan_ctrl_t CTRL; //!< Control Register
    volatile hw_flexcan_timer_t TIMER; //!< Free Running Timer
    reg32_t _reserved0;
    volatile hw_flexcan_rxgmask_t RXGMASK; //!< Rx Global Mask
    volatile hw_flexcan_rx14mask_t RX14MASK; //!< Rx 14 Mask
    volatile hw_flexcan_rx15mask_t RX15MASK; //!< Rx 15 Mask
    volatile hw_flexcan_ecr_t ECR; //!< Error Counter Register
    volatile hw_flexcan_esr_t ESR; //!< Error and Status Register
    volatile hw_flexcan_imask2_t IMASK2; //!< Interrupt Masks 2 Register
    volatile hw_flexcan_imask1_t IMASK1; //!< Interrupt Masks 1 Register
    volatile hw_flexcan_iflag2_t IFLAG2; //!< Interrupt Flags 2 Register
    volatile hw_flexcan_iflag1_t IFLAG1; //!< Interrupt Flags 1 Register
    volatile hw_flexcan_gfwr_t GFWR; //!< Glitch Filter Width Register
    reg32_t _reserved1[530];
    volatile hw_flexcan_rx0imr_t RX0IMR; //!< Rx Individual Mask Registers
    reg32_t _reserved2[62];
    volatile hw_flexcan_rx63imr_t RX63IMR; //!< Rx Individual Mask Registers
} hw_flexcan_t;
#pragma pack()

//! @brief Macro to access all FLEXCAN registers.
//! @param x FLEXCAN instance number.
//! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct,
//!     use the '&' operator, like <code>&HW_FLEXCAN(0)</code>.
#define HW_FLEXCAN(x)     (*(hw_flexcan_t *) REGS_FLEXCAN_BASE(x))
#endif

#endif // __HW_FLEXCAN_REGISTERS_H__
// v18/121106/1.2.2
// EOF
